{"id":2597347,"date":"2023-12-23T08:56:00","date_gmt":"2023-12-23T13:56:00","guid":{"rendered":"https:\/\/platoai.gbaglobal.org\/platowire\/india-achieves-milestone-in-drone-technology-with-indigenous-solar-powered-pseudo-satellite-flying-for-over-21-hours\/"},"modified":"2023-12-23T08:56:00","modified_gmt":"2023-12-23T13:56:00","slug":"india-achieves-milestone-in-drone-technology-with-indigenous-solar-powered-pseudo-satellite-flying-for-over-21-hours","status":"publish","type":"platowire","link":"https:\/\/platoai.gbaglobal.org\/platowire\/india-achieves-milestone-in-drone-technology-with-indigenous-solar-powered-pseudo-satellite-flying-for-over-21-hours\/","title":{"rendered":"India Achieves Milestone in Drone Technology with Indigenous Solar-Powered Pseudo-Satellite Flying for Over 21 Hours"},"content":{"rendered":"

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India Achieves Milestone in Drone Technology with Indigenous Solar-Powered Pseudo-Satellite Flying for Over 21 Hours<\/p>\n

In a significant achievement for the Indian aerospace industry, the country has successfully developed and tested an indigenous solar-powered pseudo-satellite drone that flew for over 21 hours continuously. This milestone marks a major step forward in India’s drone technology capabilities and opens up new possibilities for various applications, including surveillance, communication, and weather monitoring.<\/p>\n

The solar-powered pseudo-satellite, named “Surya,” was developed by the Indian Space Research Organisation (ISRO) in collaboration with the National Aerospace Laboratories (NAL). It is designed to operate at high altitudes, above commercial air traffic, and can provide continuous coverage of a specific area for an extended period. The drone is equipped with advanced solar panels that generate electricity during the day and store it in onboard batteries to power its systems during the night.<\/p>\n

One of the key advantages of the Surya drone is its ability to fly at altitudes of up to 65,000 feet, which is significantly higher than conventional drones. This altitude allows it to capture a wider field of view and gather more detailed information. The drone’s long endurance capabilities make it an ideal platform for various applications, such as border surveillance, disaster management, and environmental monitoring.<\/p>\n

The successful test flight of the Surya drone demonstrated its ability to operate autonomously for an extended period without any external power source. The drone’s advanced navigation and control systems ensure precise positioning and stability, even in challenging weather conditions. It can be remotely controlled or operate on pre-programmed flight paths, making it highly versatile for different mission requirements.<\/p>\n

The pseudo-satellite’s solar panels are designed to efficiently convert sunlight into electrical energy, providing a continuous power supply to its onboard systems. This renewable energy source eliminates the need for frequent refueling or recharging, reducing operational costs and increasing its operational range. The drone’s lightweight construction and advanced materials contribute to its energy efficiency and overall performance.<\/p>\n

The Surya drone’s potential applications are vast and diverse. In the field of surveillance, it can provide real-time monitoring of borders, coastal areas, and critical infrastructure, enhancing security and enabling quick response to potential threats. Additionally, its long endurance capabilities make it an excellent platform for communication relay, enabling seamless connectivity in remote areas or during natural disasters when traditional communication networks may be disrupted.<\/p>\n

Furthermore, the pseudo-satellite’s ability to gather high-resolution imagery and atmospheric data makes it valuable for weather monitoring and climate research. It can help predict and track weather patterns, monitor air quality, and contribute to scientific studies on climate change. The drone’s extended flight duration allows for continuous data collection, providing a comprehensive understanding of environmental conditions over an extended period.<\/p>\n

India’s achievement in developing the Surya drone showcases the country’s growing prowess in aerospace technology and its commitment to innovation. The successful flight test demonstrates India’s ability to design and manufacture advanced drones that can compete with global counterparts. This milestone also highlights the potential for indigenous technological advancements to address specific national needs and contribute to the country’s overall development.<\/p>\n

As India continues to invest in drone technology, further advancements can be expected in terms of payload capacity, communication capabilities, and autonomous operations. The successful development of the Surya drone paves the way for future innovations in the field, opening up new possibilities for applications in various sectors, including defense, agriculture, and disaster management.<\/p>\n

In conclusion, India’s achievement in developing an indigenous solar-powered pseudo-satellite drone capable of flying for over 21 hours represents a significant milestone in the country’s drone technology capabilities. The Surya drone’s long endurance, high altitude capabilities, and renewable energy source make it a versatile platform for surveillance, communication, and environmental monitoring. This achievement not only showcases India’s technological prowess but also highlights the potential for indigenous innovations to address specific national needs and contribute to the country’s overall development.<\/p>\n