KARNATATA: SPACE & TECHNOLOGY: Bengaluru-based Space Startup ‘GalaxEye Space’ Unveils First Drone-based SAR System

Started in 2021, GalaxEye is the brainchild of entrepreneurs Singh, Denil Chawda, Kishan Thakkar, Pranit Mehta and Rakshit Bhatt.

A Bengaluru-based space-tech startup and the first Indian Earth observation satellite company, GalaxEye Space, inaugurated a high-resolution aerial drone based Synthetic Aperture Radar (SAR) system that can perform exceptionally detailed and high resolution all-weather imaging, even amid rainy or cloudy conditions. 

“The in-house developed data fusion technology will deliver unprecedented insights and data from space, empowering satellite constellations to conduct all-weather imaging without succumbing to atmospheric hindrances that plague current single-sensor satellites,” said co-founder & CEO, GalaxEye Space, Suyash Singh. He added that technology opens doors for generating highly detailed images through a compact satellite constellation.

“Upon achieving full operational capacity, this constellation will achieve global coverage within a 12-hour time frame. The capability of constant all-weather, all-time imaging, combined with precise object geometry analysis, holds immense value across diverse sectors such as insurance, precision agriculture, accurate property tax assessment, and the monitoring of utilities like transmission lines, to name a few,” said Singh.

“India is budding with young space startups. Among them, GalaxEye has been able to prove its capabilities in a short period, that too with difficult technologies like SAR,” stated Dr Sudheer Kumar, director, Capacity Building Office, ISRO. “We are keen to see young space talent shaping the future of the Indian space economy,” he added.

“Space technology is currently a very active area having several young entrepreneurs. GalaxEye Space, spun out of IIT Madras, has grown by leaps and bounds since they were incorporated. We are proud of their achievements and look forward to more such ‘Make In India’ initiatives. We shall continue to nurture and support budding entrepreneurs in several ways,” said Dr V Kamakoti, director, Indian Institute of Technology (IIT) Madras.

Started in 2021, GalaxEye is the brainchild of entrepreneurs Singh, Denil Chawda, Kishan Thakkar, Pranit Mehta and Rakshit Bhatt. The startup, spun out of IIT Madras, has inked strategic partnerships and commercial contracts with leading organizations, including US-based space software provider Antaris Inc, XDLINX Labs, Ananth Technologies, and Dassault Systemes. The company is committed to further expanding its partnerships and customer base in the upcoming months, and has submitted a proposal to IN-SPACe seeking support from ISRO to take its endeavours forward.

source/content: newindianexpress.com (headline edited)

NATIONAL & KARNATAKA: SPACE TECHNOLOGY: Udupi Ramachandra Rao (U.R. Rao) – The Man who Built a Satellite in a Shed

Let us shift our attention away from the lander to Chandrayaan-3, the satellite that carried it there, and to the story of India’s satellite dream, which began in 1972 in six rough industrial sheds outside Bengaluru.

Last week, as the Vikram lander descended into a graceful, precise, soft landing on the dark side of the moon, Indian hearts exploded in pride. This week, let us shift our attention away from the lander to Chandrayaan-3, the satellite that carried it there, and to the story of India’s satellite dream, which began in 1972 in six rough industrial sheds outside Bengaluru.

The problem with space technology is that countries guard their knowhow fiercely – there’s very little, and very sketchy, information available in the public domain. In 1966, therefore, Vikram Sarabhai, then director of the Indian National Committee for Space Research (INCOSPAR) invited one of his former PhD students at Physical Research Laboratories (PRL) Ahmedabad, who had been researching solar cosmic-ray phenomena while working with Pioneer space probes and Explorer satellites at MIT, to return and head the satellite engineering team he was putting together. The brilliant young man who bought into the dream and would later be hailed as India’s Satellite Man was 34-year-old Udupi Ramachandra Rao.

When UR Rao took over the satellite program, he was the only one on the team to have ever seen a satellite. At that time, the satellite engineering team was divided between the Thumba Equatorial Rocket Launching Station (TERLS) near Trivandrum, and PRL in Ahmedabad. The untimely death of Sarabhai in 1971 brought Satish Dhawan to the helm of ISRO (INCOSPAR became ISRO in 1969). Unwilling to give up his job as Director of the Indian Institute of Science (IISc), Dhawan negotiated for ISRO to move to Bengaluru, providing the perfect opportunity for Rao, who had spent his boyhood in Ballari and the little village of Adamaru in Udupi, to decide to move the satellite centre here as well.

It wasn’t easy. The unionized labour force at TERLS went on the warpath, refusing to allow any equipment to be moved out. In Bengaluru itself, premises had to be found. At first, the IISc gymkhana was co-opted; later, the Karnataka government offered Rao a few sheds at the brand-new (read: entirely lacking facilities) Peenya Industrial Area outside town. In a dazzling feat of jugaad, involving thermocol, vinyl, and, presumably, duct tape, one of those dusty, asbestos-roofed sheds was converted into the ‘clean room’ required for satellite activity.

In those sheds, between 1972 and 1975, a young and inexperienced but passionate team of scientists and engineers – average age: 26 – put together, under Rao’s dynamic, inspiring. impatient leadership, India’s very first satellite, Aryabhata. It was a magnificent feat – no other country had built a satellite in under three years. The famous picture of Aryabhata being transported on a bullock cart was scoffed at in the American press, which questioned a poor country’s need for a space program. Rao explained it years later as another brilliant example of jugaad. The spacecraft had to be tested for electromagnetic capability and interference in an open area, but metal trucks threw off reflections that interfered with the satellite’s antenna. Someone came up with the brilliant idea of using a wooden bullock cart to transport it instead – et voila!

In 2017, at the age of 85, after overseeing the design of 18 more satellites, accelerating the development of satellite launch vehicles like the ASLVs and PSLVs during his decade-long tenure as Chairman of ISRO, and becoming the first Indian to be inducted into the International Astronautical Federation’s ‘Hall of Fame’, the much-decorated UR Rao died with his boots on. Since then, the ISRO Satellite Centre in Bengaluru, which he so capably raised on the wings of a dream and a prayer, and where all the Chandrayaan satellites were built, has carried his name, and now goes by UR Rao Satellite Centre.

source/content: hindustantimes.com (headline edited)

NATIONAL & KARNATAKA: SCEINC & TECHNOLOGY: Indian Institute of Science (IISc) Develops Autopilot System for Drones

The reason for India’s slow progress in this sector is due to the non-availability of essential indigenous electronics components like microcontrollers and sensors at a reasonable cost.

With the exponential rise in drone usage across sectors like industrial applications, agriculture, logistics and defence, the need for indigenous avionics systems has become crucial. In order to reduce dependence on foreign drone technology, the Indian Institute of Science (IISC) has made a significant achievement in the field of unmanned aerial systems. 

The Artificial Intelligence and Robotics Laboratory (AIRL) at IISC announced that the team has successfully developed an indigenous industrial-grade autopilot system for drones. The team said this achievement is the initial step towards the indigenization of avionics systems for drones in India. This feat was possible through the utilization of Indian-made Vega Microcontrollers, developed by the Centre for Development of Advanced Computing (CDAC), as part of the Digital India RISC-V Program (DIR-V). 

The indigenously developed technology will help reduce the reliance on microcontrollers in future drone avionics projects. Professor Suresh Sundaram, Associate Professor at the Department of Aerospace Engineering, who headed the project said, “Our autopilot system, powered by Vega Microcontrollers, showcases the immense potential of homegrown solutions in the unmanned aerial systems domain. We are confident that this breakthrough will pave the way for further advancements in this field and contribute to the growth of the drone ecosystem in India.” 

India’s most used drone technologies which include an unmanned aerial system (UAV) that can help run a basic operation system and forward data to a navigation control unit, are imported from China, US, Israel, and several European countries.

The reason for India’s slow progress in this sector is due to the non-availability of essential indigenous electronics components like microcontrollers and sensors at a reasonable cost. The country also lacks a skilled workforce working on the UAV systems. Using imported tech comes with major security concerns such as hacking and data manipulation.

The country has been on a steady growth towards chip manufacturing and CDAC is a ray of hope in developing world-class microcontrollers. “This move will cut millions of dollars worth of electronics import over the years and make India self-reliant in terms of UAV technology,” said the laboratory. 

source/content: newindianexpress.com (headline edited)

INTERNATIONAL: NATIONAL & KARNATAKA / ARTS & CULTURE / PHOTOGRAPHY : Mysuru’s N.G. Sudheer Wins Gold Medals in Intl. Photography Salon by The Photographic Society of America

The Photography Society of America, an internationally recognised organisation, in association with JSP, Foto Soul and Vibrant Shades organisations, had organised an International Photography Salon (Competition) in the month of May.

The competition was held in three stages in different countries.

Mysuru’s photographer N.G. Sudheer has won two gold medals in two different stages for his photograph of Mahamastakabhisheka in Shravanabelagola.

source/content: starofmysore.com / Star of Mysore / Home> Photo News / August 22nd, 2023

NATIONAL & KARNATAKA: MANUFACTURING / DEFENCE & NAVAL AIR FORCE / : Maiden flight of LCA Naval Trainer NP5 from HAL Airport Successful in Karnataka

The Light Combat Aircraft (LCA) Naval Trainer Prototype NP5 successfully completed its maiden flight.

The Light Combat Aircraft (LCA) Naval Trainer Prototype NP5 successfully completed its maiden flight on Friday. The aircraft, which took off from HAL airport, was airborne 57 minutes with all parameters normal, according to Defence Research and Development Organisation (DRDO)..

The aircraft, which incorporates the production standard airframe and rainwater compliance, maintainability improvements as well as futuristic system advancement, was captained by Capt Amit Kawade (Indian Navy) with Wg Cdr Siddarth Singh (Retd) in the rear cockpit.

Capt Kawade said the handling qualities were extremely satisfactory and all test points envisaged have been successfully completed. LCA Navy is designed and developed jointly by Aeronautical Development Agency (ADA) and Hindustan Aeronautics Limited (HAL), Bangalore.

The first trainer prototype NP1 was flown on April 27, 2012, and the fighter prototype NP2 on February 7, 2015. Both Naval Prototypes (NP1 and NP2) have achieved major milestones such as ski-jump take-off and arrested landing demonstrations on Shore Based Test Facility at Dabolim Airport, Goa, and operations from indigenous aircraft carriers. 

LCA Navy can operate day and night

“The aircraft demonstrated 18 arrested landings and ski-jump takeoffs from INS Vikramaditya in January 2020, including hot refuelling capability. Recently, LCA Navy participated in the carrier trials from INS Vikrant and performed 10 ski-jump take-offs and arrested landings on February 6.

LCA Navy has completed the landmark achievement of being the first indigenous fighter aircraft landing on the indigenous aircraft carrier, INS Vikrant,” DRDO said in a statement. Equipped with state-of-the-art technologies such as a fly-by-wire flight control system, glass cockpit and advanced mechanical systems, LCA Navy can be operated seamlessly day and night.

It features advanced hands-free ski-jump take-off and landing flight control modes. LCA Navy Prototypes are carrier compatible and can operate with Air-to-Air weapons for combat missions. “The new prototype NP5 will soon undertake field and carrier operations from INS Vikramaditya and INS Vikrant. LCA Navy NP5 incorporates all improvements identified during the testing of NP1 and NP2 is a production-ready aircraft,” the statement added.

The addition of NP5 aircraft to the LCA Navy prototype fleet will help accelerate flight testing activities which will provide designers vital inputs towards the design and development of the Twin Engine Deck Based Fighter (TEDBF), the country’s prestigious futuristic carrier aircraft programme. LCA Navy can also serve as an effective training platform for Indian Navy pilots for operations from the aircraft carriers, the release said.

source/content: newindianexpress.com (headline edited)

KARNATAKA: Lifetime Achievement Award For Dr. H. Basavanagowdappa, Physician & Principal/Dean of JSS Medical College, Mysuru

The Association of Physicians of India, Karnataka Chapter, presented the “Lifetime Achievement Award” to Dr. H. Basavanagowdappa, a Senior Physician, Principal of JSS Medical College and Dean, Faculty of Medicine at JSS Academy of Higher Education and Research, Mysuru, at the awards ceremony held on Aug. 11 at Vijayanagara Institute of Medical Sciences, Ballari, during the Annual State Conference of the Association of Physicians of India, Karnataka State Chapter. 

The award was given in recognition of his 36 years of dedicated teaching experience in Medical education and his commitment to health services to several thousands of needy patients.

He was honoured with a plaque and a citation.

source/content: starofmysore.com (headline edited)

NATIONAL/ KARNATAKA: AUGUST 15th, 2023 : Benglauru’s Manekshaw Parade Ground Decks up to Welcome the Nation’s 76th Independence Day 

At 8.58 am on August 15, Chief Minister Siddaramaiah will arrive at the Manekshaw Parade Ground, and hoist the Tricolour by 9 am.

 The stage is set for the 76th Independence Day celebration at Manekshaw Parade Ground, which is expected to see around 8,000 people in attendance. Nearly 1,800 police personnel will be deployed to guard the venue. BBMP Chief Commissioner Tushar Girinath, along with Bengaluru City Police Commissioner B Dayananda and Deputy Commissioner (Bengaluru Urban) Dayananda KA, inspected the venue and oversaw the final rehearsal of the event on Sunday morning.

Addressing the media on Sunday, Girinath said, “The stage is set for the Independence Day celebration. Around 1,500 children from different schools across the city will be taking part in cultural programmes on Tuesday. For the general public, VIPs and VVIPs and special invitees, 8,000 seats have been arranged to witness the parade.” 

At 8.58 am on August 15, Chief Minister Siddaramaiah will arrive at the Manekshaw Parade Ground, and hoist the Tricolour by 9 am. He will get on an open vehicle and receive the guard of honour from various wings of the state police. 

Including the armed platoons of the Border Security Force, Central Reserve Police Force, Goa State Police, Karnataka State Reserve Police, and unarmed platoons of Excise, Fire Service, and school groups, a total of 38 platoons, with 1,350 people, will take part in a parade. 

“There will be tight security on Independence Day with 1,786 police personnel on duty. The general public will be allowed to carry only their mobile phones, wallets and handbags (women). Hundred CCTV cameras have been installed to monitor the ground, along with 20 door frame metal detectors. There will be three baggage scanners and 40 hand-held metal detectors,” the police commissioner said.

Articles prohibited
Meanwhile, matchboxes, cigarettes, pamphlets, knives, black cloth, food items, sharp objects, water bottles and cans, firecrackers and explosives, liquor, colour powder, and cameras are prohibited. 

Parking restrictions
Traffic will be diverted from 8 am to 11 am from BRV Junction to Kamaraj Road Junction on Cubbon Road. Further, people are advised not to park around Central Street from Anil Kumble Circle to Shivajinagar Bus Stand, Cubbon Road, from CTO to KR Road and Cubbon Road Junction, and MG Road from Anil Kumble Circle to Queens Circle.

Bannerghatta Park to be open on August 15
The Bannerghatta Biological Park will remain open on August 15. Usually, the zoo, safari and butterfly park are closed every Tuesday, however, the BBP said the park will be closed on August 16, instead of Tuesday.

Teachers, fishermen, artisans from K’taka to witness I-day fete in delhi
Teachers, fishermen, artisans, and beneficiaries of various programmes are among the 31 special invitees from Karnataka who will witness the Independence Day celebrations in New Delhi. The special guests include six teachers, four fishermen, three artisans, three beneficiaries of the Jal Jeevan mission, two each beneficiaries of Amrit Sarovar and Pradhan Mantri Kaushal Vikas Yojana and representatives of 13 farmer produce organisations in Karnataka. The initiative to invite people from all walks of life from across the country to be a part of the celebrations was taken by the Centre in line with its vision of ‘Jan Bhagidari’, said a statement. Around 1,800 special invitees from across the country will witness the Independence Day celebrations in the national capital, the statement added. 

source/content: newindianexpress.com (headline edited)

NATIONAL & KARNATAKA: SCIENCE & TECHNOLOGY: Eminent Scientist Padma Shri Prof. MRS Rao passes away in Bengaluru at 75. He was the First Scientist to initiate Chromatin Biology Research in India. 

Prof Rao was working as an Honorary Professor at the Jawaharlal Nehru Centre for Advanced Scientific Research and was actively running the Chromatin Biology laboratory in the institute.

Manchanahalli Rangaswamy Satyanarayana Rao, popularly known as MRS Rao, an eminent Indian scientist and Padma Shri awardee, died of cardiac arrest at 7 pm at his residence in Tata Nagar in Bengaluru on Sunday.

He was well known for his discipline, scientific knowledge, patience, soft-spoken nature and mentorship of PhD students.

The former Jawaharlal Nehru Centre for Advanced Scientific Research president is survived by his wife Padma S Rao and two sons Sharat and Rohan.

MR Satyanarayana Rao’s colleagues told TNIE that his last rites will be conducted on Tuesday after one of his sons returns from Brisbane. 

Born on January 21, 1948, in Mysuru, the 75-year-old scientist, was the first scientist to initiate Chromatin Biology research in India. 

Prior to his demise, he was working as an Honorary Professor at the Jawaharlal Nehru Centre for Advanced Scientific Research and was actively running the Chromatin Biology laboratory in the institute.

He was honoured with the Padma Sri award in 2010 for his contributions to the field of science and engineering.

He was also honoured by the Karnataka state government with the Sir MV Visvesvaraya Award for his contribution to the field of science and research.

He was the President of the Jawaharlal Nehru Centre for Advanced Scientific Research, from 2003-13.

He was also the chairman of many central government science committees. He was also on all committees of the Indian Council of medical research. 

Prof Rao completed his BSc in 1966 and Msc in 1968 from Bengaluru University. He did his PhD in biochemistry from the Indian Institute of Science (IISc) in Bengaluru in 1973.

He then did his postdoctoral research at Baylor College of Medicine in Houston from 1974–76, where he also worked as an assistant professor.

When he returned to India, he joined the Department of Biochemistry at IISc.

In over 30 years of his research career, Prof Rao has mentored and guided over 35 PhD students and hundreds of trainees. 

source/content: newindianexpress.com (headline edited)

KARNATAKA: AI in HEALTH & MEDICAL SERVICES / OPTHALMOLOGY: AI can Predict Severity of Conjunctivitis, says Dr. Rohit Shetty, Narayana Nethralaya, Bengaluru

Addressing reporters on Thursday, the doctor said that using imaging and molecular diagnostics has enabled them to use AI and bio-markers in conjunctivitis to predict severity.

 In an effort to identify and treat severe conjunctivitis cases early, Narayana Nethralaya has managed to predict the severity of such cases using Artificial Intelligence (AI). “We are using AI to predict the severity of conjunctivitis. This can help clinicians provide the right treatment that helps in better recovery. This bio-marker work in tears is probably one of the first in the country, and could also be one of the first conjunctivitis-related tear bio-marker research in the world,” said Dr Rohit Shetty, chairman, Narayana Nethralaya explained. 

Addressing reporters on Thursday, the doctor said that using imaging and molecular diagnostics has enabled them to use AI and bio-markers in conjunctivitis to predict severity. This AI-driven research has highlighted that people who are more prone to allergies or asthma and have low Vitamin D levels are getting severely affected. The AI model has demonstrated 97 per cent accuracy, affirming its successful interpretation.

Cases of conjunctivitis, commonly known as ‘pink eye’, are on the rise in Bengaluru in the past few weeks. Doctors at Narayana see over 100 patients daily, with 30% of them being children. Most cases are caused due to adenovirus, and is not just a summer infection, but occurs in all seasons.

“This research is of paramount importance to patients and doctors, as the disease has been addressed with a blanket approach that may not be suitable for all. Depending on the severity, we can decide what medications would be suitable, and starting topical steroids early can be beneficial,” said Dr Gairik, consultant of cornea and refractive surgery, Narayana Nethralaya.

source/content: newindianexpress.com (headline edited)

KARNATAKA: ARTS & CULTURE / RELIGION: Puttur’s Aparna Kodankeri Writes Hindu Scripture Bhagavad Gita in Tulu Script

Many books are being written in Tulu language and script in order to further strengthen the demand to add Tulu language to the Eighth Schedule of the Indian Constitution. In a similar attempt, a Puttur native woman has written Bhagavad Gita in Tulu and Kannada scripts.

Aparna Kodankeri, a resident of Kodankeri near Narigmogaru in Puttur, is the woman who has done this unique achievement. She is a Bharatnatyam expert too.

Aparna translated Bhagavad Gita, a part of Mahabharata, which is the Hindu religious book using Tulu script. The book was released recently by Sri Vidyaprasannatheertha Swamiji of Subramanya Math in the presence of scholar Laxmeesha Tholpady and Ananda Theertha Sagri of Subramanya math Vedavyasa research centre.

Aparna, who was at home during the Covid pandemic, started writing in Tulu script which was taught to her by her brother Mukund.

Aparna says, “I felt while writing why Bhagavad Gita taught by Sri Krishna should not be written in Tulu language and script. I have written the summary and teaching of 18 Shlokas of Bhagavad Gita in Tulu and Kannada scripts as I found that writing in Tulu will make the book and teachings closer to heart of Tulu speaking people.”

source/content: daijiworld.com (headline edited)