Tamil News -Isro launches 100th satellite, successfully places Cartosat-2 into the orbit  - Dailythanthi.com

Bouncing back strongly from its recent failure, the Indian Space Research Organisation (ISRO) on Friday successfully launched the Polar Satellite Launch Vehicle (PSLV-C40) from Satish Dhawan Space Centre (SDSC) in Sriharikota.The PSLV -C40 successfully placed Cartosat-2 series satellite into sun synchronous orbit, Isro said. “ISRO is starting 2018 with the successful launch of our Cartosat small satellite, nanosat and microsat and 28 customer satellites,” A.S.Kiran Kumar, Isro’s chairman said to loud applause within the command centre.The success of Friday’s launch comes about four months after Isro’s PSLV-C39 failed following a technical snag involving the heat shield.

“The last launch on the PSLV, whatever heat shield problems we had faced, the committees went through rigorously and then found corrective measures that were required to make the system more robust and today what has happened vindicates that the problem is properly understood and rectified and we are extremely happy to provide a new year gift to the country with Cartosat series,” Kumar said. The 710 kg Cartosat-2 series satellite for earth observation and 30 co-passenger satellites together weighing about 613 kg at lift-off.The co-passenger satellites comprise one Microsatellite and one Nanosatellite from India as well as 3 Microsatellites and 25 Nanosatellites from six countries, namely, Canada, Finland, France, Republic of Korea, UK and USA. The total weight of all the 31 satellites carried onboard PSLV-C40 is about 1323 kg, according to information provided by Isro.

http://www.dailythanthi.com/News/TopNews/2018/01/12100858/PSLVC40-successfully-places-Cartosat2-series-satellite.vpf

For More Visit:- http://www.dailythanthi.com/

(Sep. 18, 2021) (1) Space Technology & RADAR Applications (2) MDAO Lessons-Learned & Best Practices

(Sep. 18, 2021) (1) Space Technology & RADAR Applications (2) MDAO Lessons-Learned & Best Practices RSVP and Information: https://conta.cc/3yh7t25 (For posting only, not for ticket sale on this webpage. Please check RSVP and information link/button for RSVP/registration/tickets. Thank you very much !) -------------------------------------------- AIAA LA-LV Section e-Town Hall Meeting Saturday, September 18, 2021, 9am-12pm PDT (US/Canada) (GMT-0700) -------------------------------------------- 9 AM PDT (GMT-0700) Space Technology & RADAR Applications   by   Dr. Sudhir Kumar Chaturvedi Associate Professor and Placements Internship Coordinator, Department of Aerospace Engineering, UPES Dehradun, India -------------------------------------------- 10:30 AM PDT (GMT-0700) MDAO Lessons-Learned & Best Practices   by   Mr. Jim Guglielmo AIAA Associate Fellow Manager of the Vehicle Design, Analysis and Optimization Group, Boeing Research & Technology ----------------------------------------------- Tickets:   $0 (FREE) for Attendees from India (Registrants from India will be required to type in a statement to confirm with honesty during registration if they would indeed be attending the event from India.)   Other Attendees: $2.95: AIAA Professional Member $5.95: Non-AIAA Member - Professional $1.95: AIAA Educator Member $4.95: Non-AIAA Member - Educator $1.45: AIAA University Student Member $4.45: Non-AIAA Member - University Student $0 (No Charge): AIAA High School (HS) Student Member, Non AIAA Member HS Student, and other K-12 Student (Those Student registrants will be required to type in a statement during registration to confirm with honesty they are indeed High School or K-12 Students.) $2.95: AIAA Member - Other Categories $5.95: Non-AIAA Member - Other Categories -------------------------------------------- MDAO Lessons-Learned & Best Practices MDAO (Multi-disciplinary Analysis and Optimization) models for Conceptual Design have evolved over the years from being first focused on Flight centric lower-order analysis codes (e.g. Geometry, Mass Properties, Aerodynamics, Propulsion, Aero-Performance), to the coupling of additional disciplines (e.g. affordability, structures, subsystems, mission effectiveness) at varying levels of fidelity. This expansion in capability has followed the successful adoption of MDAO as an accepted and now expected part of the normal vehicle design process, and recognition of MDAO as a critical enabler for reducing program technical risk, delivering first-time quality, and Model-Based Engineering. This presentation will focus on best practices and lessons-learned from both the development of MDAO models and the application of MDAO on programs within Boeing. Jim Guglielmo is the manager of the Vehicle Design, Analysis and Optimization Group within Boeing Research & Technology. He has over 25 years of experience within Boeing, with expertise in the areas of aerodynamics, wind tunnel testing, aero-performance, aero database development, and Multidisciplinary Design Analysis & Optimization. For the last ten years, his focus has been on developing MDAO models and running MDAO studies on programs. Jim is a graduate of the University of Illinois at Urbana-Champaign, where he received both his Bachelor of Science and Master's Degrees in Aerospace Engineering. -------------------------------------------- Space Technology & RADAR Applications The task of radar signal processing is the extraction of the target information from the radar echo. The functions of radar extend from the target detection and the coordinate measurement (range, angle of azimuth and elevation) to the measurement of Doppler frequency, the judgement of target property, anti-jammer anti-deception and anti-ARM and so on. This means that modern radar should work in wide band or multi-band, look everywhere all the time, and possess multi-functions. Then it must use advanced signal processing technology to improve the capability of catching the target information. The advanced technologies of radar signal processing involve the advanced processing algorithms and advanced digital processing hardware and software.   Synthetic aperture radar, or SAR, is a completely different way to generate a picture by actively illuminating the ground rather than utilizing the light from the sun as with optical images. The right side of the image above shows how very different SAR images look from optical images. These differences present challenges but also create new capabilities. One major advantage of SAR is simple: Even the best aircraft-mounted or satellite-mounted optical camera is less useful at night and useless when clouds or smoke are present. SAR can capture images at night and see right through clouds and smoke. It is a 24-hour, all-weather technology.   Dr. Sudhir Kumar Chaturvedi is working as an Associate Professor and Placements Internship Coordinator at Department of Aerospace Engineering, UPES Dehradun. He has obtained B.Tech in Aeronautical Engineering-Avionics Spz from Aeronautical Society of India, India , MS (By Research) in Ocean Engineering-SAR Applications from IIT Madras, India. He is awarded with Doctorate in Engineering from UPES Dehradun, India. Dr. Chaturvedi is the recipient of Young Scientist-2010 by Korean Marine Environmental Engineering, South Korea. He had been visiting research scholar to Korea Ocean R&D Institute, South Korea (2010-2011). Dr. Chaturvedi had published more than 25 Journal research papers in various Scopus and SCI/WoS databases. He had attended and presented research papers in many conferences (approx..70) such as IEEE-IGARSS, IEEE-APSAR, IEEE-IRSI, IEEE-ISM etc. He is member of various professional bodies such as IEEE, ISRS, AeSI, IITMAA. Dr. Chaturvedi is on Editorial board of Journal of Marine Technology and Research, Thailand, GRD Journals etc. Chaturvedi has been organizing many Executive master classes at UPES Dehradun with the eminent persons such as Dr. SUBRAMANIAN Swamy (MP-Rajya Sabha, India), Dr. K.Sivan (Chairman-ISRO), Padmavibhsuhan Dr. Madhavan Nair (Former Chairman-ISRO), Padma Shri A.S.Kiran Kumar (Former Chairman-ISRO) and many more. His area of research is SAR applications for oceans, target detection, Tsunami modelling etc. Recently, Dr. Chaturvedi is been awarded with Outstanding Faculty Advisor Award-2021 in Space Habitat Event, Brazil. Also, he is working as the Convener (Hony.) at Mission Aerospace Foundation of India (Aerofi), India. -------------------------------------------- Disclaimer: The views of the speakers do not represent the views of AIAA or the AIAA Los Angeles-Las Vegas Section AIAA Los Angeles-Las Vegas | aiaa-lalv.org | [email protected] Read the full article

Rocket expert K. Sivan new Space Secretary

Dr. Sivan will take over from A.S.Kiran Kumar as the ninth head of the country’s Space establishment. Mr. Kiran Kumar ends his term on January 14. Rocket scientist K. Sivan, currently Director of the Vikram Sarabhai Space Centre, is to be the next Secretary of the Department of Space, and Chairman of the Space Commission and the Indian Space Research Organisation (ISRO), with a term of three years.

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Tamil News -Isro launches 100th satellite, successfully places Cartosat-2 into the orbit – Maalaimalar.com

Bouncing back strongly from its recent failure, the Indian Space Research Organisation (ISRO) on Friday successfully launched the Polar Satellite Launch Vehicle (PSLV-C40) from Satish Dhawan Space Centre (SDSC) in Sriharikota.The PSLV -C40 successfully placed Cartosat-2 series satellite into sun synchronous orbit, Isro said. “ISRO is starting 2018 with the successful launch of our Cartosat small satellite, nanosat and microsat and 28 customer satellites,” A.S.Kiran Kumar, Isro’s chairman said to loud applause within the command centre.The success of Friday’s launch comes about four months after Isro’s PSLV-C39 failed following a technical snag involving the heat shield. “The last launch on the PSLV, whatever heat shield problems we had faced, the committees went through rigorously and then found corrective measures that were required to make the system more robust and today what has happened vindicates that the problem is properly understood and rectified and we are extremely happy to provide a new year gift to the country with Cartosat series,” Kumar said. The 710 kg Cartosat-2 series satellite for earth observation and 30 co-passenger satellites together weighing about 613 kg at lift-off.The co-passenger satellites comprise one Microsatellite and one Nanosatellite from India as well as 3 Microsatellites and 25 Nanosatellites from six countries, namely, Canada, Finland, France, Republic of Korea, UK and USA. The total weight of all the 31 satellites carried onboard PSLV-C40 is about 1323 kg, according to information provided by ISRO.

http://www.maalaimalar.com/News/TopNews/2018/01/12104447/1139820/Cartosat-2-and-30-satellites-placed-in-orbit-by-ISRO.vpf For More Visit:- http://www.maalaimalar.com/

(Sep. 18, 2021) (1) Space Technology & RADAR Applications (2) MDAO Lessons-Learned & Best Practices

(Sep. 18, 2021) (1) Space Technology & RADAR Applications (2) MDAO Lessons-Learned & Best Practices RSVP and Information: https://conta.cc/3yh7t25 (For posting only, not for ticket sale on this webpage. Please check RSVP and information link/button for RSVP/registration/tickets. Thank you very much !) -------------------------------------------- AIAA LA-LV Section e-Town Hall Meeting Saturday, September 18, 2021, 9am-12pm PDT (US/Canada) (GMT-0700) -------------------------------------------- 9 AM PDT (GMT-0700) Space Technology & RADAR Applications   by   Dr. Sudhir Kumar Chaturvedi Associate Professor and Placements Internship Coordinator, Department of Aerospace Engineering, UPES Dehradun, India -------------------------------------------- 10:30 AM PDT (GMT-0700) MDAO Lessons-Learned & Best Practices   by   Mr. Jim Guglielmo AIAA Associate Fellow Manager of the Vehicle Design, Analysis and Optimization Group, Boeing Research & Technology ----------------------------------------------- Tickets:   $0 (FREE) for Attendees from India (Registrants from India will be required to type in a statement to confirm with honesty during registration if they would indeed be attending the event from India.)   Other Attendees: $2.95: AIAA Professional Member $5.95: Non-AIAA Member - Professional $1.95: AIAA Educator Member $4.95: Non-AIAA Member - Educator $1.45: AIAA University Student Member $4.45: Non-AIAA Member - University Student $0 (No Charge): AIAA High School (HS) Student Member, Non AIAA Member HS Student, and other K-12 Student (Those Student registrants will be required to type in a statement during registration to confirm with honesty they are indeed High School or K-12 Students.) $2.95: AIAA Member - Other Categories $5.95: Non-AIAA Member - Other Categories -------------------------------------------- MDAO Lessons-Learned & Best Practices MDAO (Multi-disciplinary Analysis and Optimization) models for Conceptual Design have evolved over the years from being first focused on Flight centric lower-order analysis codes (e.g. Geometry, Mass Properties, Aerodynamics, Propulsion, Aero-Performance), to the coupling of additional disciplines (e.g. affordability, structures, subsystems, mission effectiveness) at varying levels of fidelity. This expansion in capability has followed the successful adoption of MDAO as an accepted and now expected part of the normal vehicle design process, and recognition of MDAO as a critical enabler for reducing program technical risk, delivering first-time quality, and Model-Based Engineering. This presentation will focus on best practices and lessons-learned from both the development of MDAO models and the application of MDAO on programs within Boeing. Jim Guglielmo is the manager of the Vehicle Design, Analysis and Optimization Group within Boeing Research & Technology. He has over 25 years of experience within Boeing, with expertise in the areas of aerodynamics, wind tunnel testing, aero-performance, aero database development, and Multidisciplinary Design Analysis & Optimization. For the last ten years, his focus has been on developing MDAO models and running MDAO studies on programs. Jim is a graduate of the University of Illinois at Urbana-Champaign, where he received both his Bachelor of Science and Master's Degrees in Aerospace Engineering. -------------------------------------------- Space Technology & RADAR Applications The task of radar signal processing is the extraction of the target information from the radar echo. The functions of radar extend from the target detection and the coordinate measurement (range, angle of azimuth and elevation) to the measurement of Doppler frequency, the judgement of target property, anti-jammer anti-deception and anti-ARM and so on. This means that modern radar should work in wide band or multi-band, look everywhere all the time, and possess multi-functions. Then it must use advanced signal processing technology to improve the capability of catching the target information. The advanced technologies of radar signal processing involve the advanced processing algorithms and advanced digital processing hardware and software.   Synthetic aperture radar, or SAR, is a completely different way to generate a picture by actively illuminating the ground rather than utilizing the light from the sun as with optical images. The right side of the image above shows how very different SAR images look from optical images. These differences present challenges but also create new capabilities. One major advantage of SAR is simple: Even the best aircraft-mounted or satellite-mounted optical camera is less useful at night and useless when clouds or smoke are present. SAR can capture images at night and see right through clouds and smoke. It is a 24-hour, all-weather technology.   Dr. Sudhir Kumar Chaturvedi is working as an Associate Professor and Placements Internship Coordinator at Department of Aerospace Engineering, UPES Dehradun. He has obtained B.Tech in Aeronautical Engineering-Avionics Spz from Aeronautical Society of India, India , MS (By Research) in Ocean Engineering-SAR Applications from IIT Madras, India. He is awarded with Doctorate in Engineering from UPES Dehradun, India. Dr. Chaturvedi is the recipient of Young Scientist-2010 by Korean Marine Environmental Engineering, South Korea. He had been visiting research scholar to Korea Ocean R&D Institute, South Korea (2010-2011). Dr. Chaturvedi had published more than 25 Journal research papers in various Scopus and SCI/WoS databases. He had attended and presented research papers in many conferences (approx..70) such as IEEE-IGARSS, IEEE-APSAR, IEEE-IRSI, IEEE-ISM etc. He is member of various professional bodies such as IEEE, ISRS, AeSI, IITMAA. Dr. Chaturvedi is on Editorial board of Journal of Marine Technology and Research, Thailand, GRD Journals etc. Chaturvedi has been organizing many Executive master classes at UPES Dehradun with the eminent persons such as Dr. SUBRAMANIAN Swamy (MP-Rajya Sabha, India), Dr. K.Sivan (Chairman-ISRO), Padmavibhsuhan Dr. Madhavan Nair (Former Chairman-ISRO), Padma Shri A.S.Kiran Kumar (Former Chairman-ISRO) and many more. His area of research is SAR applications for oceans, target detection, Tsunami modelling etc. Recently, Dr. Chaturvedi is been awarded with Outstanding Faculty Advisor Award-2021 in Space Habitat Event, Brazil. Also, he is working as the Convener (Hony.) at Mission Aerospace Foundation of India (Aerofi), India. -------------------------------------------- Disclaimer: The views of the speakers do not represent the views of AIAA or the AIAA Los Angeles-Las Vegas Section AIAA Los Angeles-Las Vegas | aiaa-lalv.org | [email protected] Read the full article