As the density of satellites increases in Earth's orbit, extreme space weather events like solar storms and radiation whiplashes threaten satellite constellations. A ‘whole-of-government’ approach is needed to address the challenges of space weather on India’s converging space and digital economies.
- Central Asia
- East Asia
- South Asia
- South East Asia
- West Asia
- Global Commons
- Book Reviews
- Conference Reports
- GH in the Media
- GH Wiki
- Maps and Infographics
- Partner Publication
- Podcasts and Videos
- Research Papers
- Research Reports
With an increasing human and robotic footprint in the solar system, there is a need to develop robust regulatory mechanisms to prevent the “forward” and “backward” biochemical contamination of these unexplored celestial bodies.
The maturing private space sector in the U.S. has learned to raise money from the market in the form of sectoral equity-traded funds. Such financing mechanisms will keep the U.S. ahead in the global space economy, which is slated to grow manifold from $430 billion now to $4 trillion by 2040. India's fledgling private space ecosystem, financiers, and stock exchanges can learn from the U.S. and do the same for India's newly reformed private space sector.
COVID-19 has accelerated internet usage and is making digital infrastructure even more indispensable globally. India is actively laying this critical infrastructure on the ground, but is yet to work on the strategic ‘last-mile’ connectivity space-based ICT and 5G plus services. U.S. and China have fast-tracked this, and India should immediately implement the recent space reforms to be regarded as a significant player.
The COVID19-caused migration of India’s large workforce to their rural roots holds immense promise for the country’s agriculture productivity and farmer incomes. Precision agritech and satellite-as-a-service (SAAS) can reduce the urban-rural skill, remuneration, and digital divide. Time to privatize space technology for agricultural benefit.
On 15 July, the Indian space programme will achieve a feat with the Chandrayaan-2 mission. Two challenges lie ahead: the speedy construction of Chandrayaan-3 and the development of a public-private ecosystem of space capabilities
The Basic Exchange and Cooperation Agreement for Geospatial Cooperation (BECA), the last of the India-U.S. foundational agreements, will enable India to avail of U.S. expertise on geospatial intelligence and to sharpen the accuracy of weapons and automated hardware systems used for military purposes. But the over-emphasis on imaging in the agreement overlooks the likelihood of a clash between the telecom and meteorological technologies, which can hurt India’s crucial capabilities in space-based weather forecasting and disaster management
The NASA InSight mission has demonstrated that cube satellites can, after all, endure interplanetary travel. Such miniaturisation of technology looks set to disrupt the obsolete 20th century approach to space exploration. It will give rise to an interplanetary telecom industry, which is indispensable for the support of human presence on Mars
A grand achievement is a series of smaller, well-defined, and precise accomplishments. If the vision of putting an Indian on the moon has to materialise, it should be preceded by several smaller projects and diverse institutions meeting definite targets. What would these targets be? Where does India’s scientific community stand in meeting them as of this day? What kind, and how much, additional capacity needs to be added to the Indian science sector to put an Indian on the moon?
India’s human spaceflight programme calls for a strong symbiosis between the country’s private sector, defence, and civilian agencies. The focus should be on indigenous development to preserve strategic autonomy