India’s Space Power Revolution

This editorial is based on “Express View on ISRO’s SpaDeX mission: A tryst in space” which
was published in The Indian Express on 01/01/2025. The article brings into picture the SpaDeX
mission, marking India’s entry into the elite space-docking club, and highlights ISRO’s
evolution into a global leader following Chandrayaan-3 and Aditya-1 successes.

For Prelims: India's space program, SpaDeX, Chandrayaan-3, Aditya-1, ISRO’s NavIC, Small
Satellite Launch Vehicle, Small Satellite Launch Vehicle, Vikram-S, India’s Anti-Satellite (ASAT)
test , 2023 Indian Space Policy.

For Mains: Key Issues Related to India's Space Sector, Ways in which India is Strengthening its Space-
Based Capabilities

India's space program has entered a new era of sophistication with ISRO's latest SpaDeX mission - a
pioneering attempt at space docking that could place India alongside the US, Russia, and
China in an elite group of nations. This milestone comes after the successful Chandrayaan-3 lunar
landing and Aditya-1 solar mission in 2023, showcasing ISRO's rapid evolution from a satellite-
launching agency to a leader in planetary exploration. ISRO's growing expertise across all aspects of space
exploration signals its readiness to emerge as a global space power, capable of contributing
significantly to humanity's understanding of the cosmos.

//
How is India Strengthening its Space-Based Capabilities?

Mastery in In-Orbit Docking and Space Station Development: India’s SPADEX

mission (Space Docking Experiment), launched by ISRO recently, exemplifies its move towards
advanced space technologies.
The experiment involves two satellites, Chaser and Target, autonomously performing
docking maneuvers, crucial for future missions like on-orbit satellite servicing and
assembling a potential Indian space station.
This complements ISRO’s Gaganyaan program, aiming for human space exploration by
2025.
 Such initiatives place India among the select few nations mastering autonomous
docking technologies, with broader implications for interplanetary missions.
Strengthening Indigenous Satellite Constellations: India has prioritized
building home-grown satellite constellations to reduce dependency on foreign data.
30 Indian companies are collaborating to build and operate Earth observation satellite
constellations for defense, infrastructure management, and mapping
ISRO’s NavIC upgrade aims to enhance India's navigation system to compete with global
counterparts like GPS.
This initiative boosts data sovereignty and aligns with India’s vision for self-
reliance in critical infrastructure, fostering public-private collaboration.
Expanding Small Satellite Capabilities and Global Launch Services: India’s Small Satellite
Launch Vehicle (SSLV), caters to the booming demand for launching nanosatellites.
By tapping into the $14 billion small satellite market expected by 2031, India has emerged
as a cost-effective global player.
The PSLV-C56 mission in 2023 successfully deployed commercial payloads, reflecting
India’s reliability in the space launch sector.
Additionally, SSLVs are enabling universities and startups to deploy experimental
satellites, accelerating technological innovation.
Boosting Space Startup Ecosystem and Private Sector Involvement: The 10 billion rupee
fund for space startups, approved in 2024, has catalyzed innovation in the private sector.
Companies like Pixxel and Skyroot Aerospace are revolutionizing Earth imaging and
rocket technologies, with Pixxel launching hyperspectral satellites and
Skyroot’s Vikram-S marking India’s first private rocket launch.
This strategy fosters entrepreneurial participation, with over 40 startups contributing to
India’s space economy and creating employment opportunities across sectors.
Advancements in Defense and Dual-Use Technologies: The launch of defense-oriented
satellites, such as GSAT-7, strengthens India’s strategic surveillance and communication
capabilities.
India’s Anti-Satellite (ASAT) test in 2019 demonstrated its readiness for space
warfare, complemented by a dedicated Defense Space Agency (DSA) operational from
2020.
This ensures India’s preparedness in addressing emerging security challenges, especially in
the context of militarization of space by global powers.
Strategic International Partnerships and Outreach: India is forging strategic partnerships to
enhance its global space standing.
Axiom Space, U.S.-based startup, plans to utilize Indian rockets for space station missions,
showcasing India’s cost-efficient launch capabilities.
Collaboration with NASA and ESA under climate and planetary science missions, like
the NISAR satellite, also boosts India’s role in addressing global challenges.
Such partnerships align India’s space ambitions with geopolitical objectives,
fostering soft power.
Enhancing Space Sustainability and Global Contribution: India is advocating sustainable
space practices, as demonstrated by missions like Aditya-L1 for solar observation, aimed at
mitigating space weather impacts on satellites.
Additionally, India is contributing to global debris management through
ISRO’s NETRA program for space situational awareness.
By balancing growth with sustainability, India aligns with international norms like
the Artemis Accords, fostering responsible behavior in outer space.
Pursuit of Lunar and Interplanetary Exploration: India’s Chandrayaan-3 success in 2023
marked its entry into the lunar south pole exploration, a feat accomplished by very few nations.
ISRO’s plans for Shukrayaan-1, Venus exploration, signify its ambitions to lead
interplanetary research.
These missions provide critical insights into planetary sciences, boosting India’s academic
and research credentials globally.
Utilization of Space for Socio-Economic Benefits: Space-based services are transforming
sectors like agriculture, disaster management, and urban planning.
For instance, ISRO’s Bhuvan Geoportal assists in real-time disaster monitoring, while
satellite data supports crop monitoring under the PM Kisan Scheme.
India’s space initiatives align with SDG goals, enhancing resilience and inclusivity in
 governance.
Space Policy and Vision for the Future: The 2023 Indian Space Policy
emphasizes democratizing space by enhancing private sector participation and
integrating space assets into national security and economic frameworks.
With plans for a national space station by 2035, India is charting a robust roadmap for
space dominance.

What are the Key Issues Related to India's Space Sector?

Limited Budget Allocation and Financial Constraints: India's space ambitions are restricted
by a relatively modest budget, impacting large-scale projects and technological
advancements.
While India is achieving high returns on its investments, its space budget pales
compared to global counterparts, limiting exploration programs, infrastructure, and R&D.
India only spends 0.04% of its GDP on space, whereas the United States spends 0.28%
of its economy on space.
ISRO's budget for 2024-25 is Rs 13,042.75 crore (about $1.95 billion). In
contrast, NASA operates with a much larger budget of around $25 billion
Technological Dependence on Foreign Players: Despite progress, India relies heavily
on foreign suppliers for critical components like advanced sensors, propulsion systems,
and semiconductors.
Indigenous technology development lags behind global standards, limiting India’s ability to
achieve self-reliance in areas like deep-space exploration and satellite manufacturing.
India largely depends on space-tech dependence along with imports. India's solar sector
imports reached $7 billion in FY 2024. The cryogenic CE-20 engine for GSLV Mk III took a
long time to develop, highlighting delays in indigenous innovation.
Regulatory and Policy Gaps: India lacks a robust legal framework governing its space activities,
deterring private sector participation and international partnerships.
While the Indian Space Policy 2023 was a positive step, it does not adequately address
liability, intellectual property rights, or dispute resolution mechanisms.
The Outer Space Treaty (1967) mandates liability for damages caused by space objects,
but India has no dedicated Space Act to codify such provisions.
Delays in launching private satellites stem from the absence of clear licensing mechanisms,
affecting startups like Pixxel and Agnikul Cosmos.
Space Debris and Sustainability Concerns: India’s increasing satellite launches and defunct
satellites contribute to growing space debris, posing risks to operational assets.
ISRO’s growing footprint in orbit is accompanied by environmental concerns, with
limited mitigation strategies and debris removal mechanisms.
By 2022, India had 103 active or defunct spacecraft and 114 objects categorised as
'space debris' in orbit
Limited Defense and Security Preparedness: India’s space capabilities for defense remain
underdeveloped compared to global powers, despite growing threats of space militarization.
The absence of robust anti-satellite systems, space-based early warning systems, and
a cohesive military-space policy leaves India vulnerable.
India conducted its first ASAT test in 2019, while the U.S. and China maintain dual-
use satellites capable of offensive operations.
India’s GSAT-7 is designed for Navy communications but lacks integration with ground-
based and space-based surveillance systems.
Brain Drain and Human Capital Deficit: The migration of skilled professionals to global space
giants undermines India’s domestic innovation capabilities.
With better funding, infrastructure, and career opportunities abroad, India faces a talent
gap in advanced space research.
70% of Indian students studying abroad opt for STEM fields reducing retention rate for top
scientists in India.
Indian-origin scientists contribute to major NASA and SpaceX projects, including Mars
Perseverance and Starship development.
Inadequate Global Market Share: India’s contribution to the global space economy is
disproportionately small, considering its cost-effective capabilities.
India’s share of the global space economy is 2-3%. Missions like PSLV-C56 have attracted
 commercial payloads but fall short of maximizing international contracts compared
to SpaceX.
Lagging Human Spaceflight Capabilities: India lags behind global leaders in human space
exploration, with no operational capacity for sustained manned missions.
While the Gaganyaan mission is promising, delays in development and reliance on
foreign life-support systems highlight gaps in India’s capabilities.
India’s first manned mission is planned for 2025, nearly 20 years behind China and 55
years after the U.S. Apollo mission.
Rising Geopolitical and Strategic Challenges: The global competition for space dominance
creates geopolitical challenges for India, especially with China’s rapid advancements.
India’s focus on civilian applications leaves it lagging in space diplomacy and dual-use
technologies compared to aggressive competitors.
China’s Tiangong Space Station became operational in 2022. India’s regional navigation
system, NavIC, has limited international adoption compared to China’s BeiDou.

What Measures Can India Adopt to Ensure Sustained Space Exploration and
Strengthen Its Space-Based Capabilities?

Enhance Budgetary Allocation and Diversify Financing Mechanisms: Increase the space
sector’s share of GDP to support high-priority projects like human spaceflight and deep-space
exploration.
Introduce sovereign space bonds and public-private co-financing models to attract
long-term investments.
Establish an Indian Space Fund under IN-SPACe to support R&D, startups, and disruptive
innovation.
Promote Public-Private Collaboration: Operationalize seamless public-private partnerships
(PPPs) by granting private players access to ISRO’s infrastructure, such as launchpads and testing
facilities.
Develop joint venture models for satellite constellations, reusable launch vehicles, and
lunar missions.
Simplify the regulatory ecosystem with single-window clearances for private space
missions under IN-SPACe.
Prioritize Indigenous Technology Development: Accelerate the establishment of dedicated
Space Technology Innovation Hubs focusing on propulsion systems, AI in satellite operations,
and space-grade semiconductors.
Collaborate with academic institutions and startups to create disruptive tech solutions,
including reusable rockets and in-orbit docking systems.
Implement import substitution policies for critical components to achieve strategic
autonomy.
Focus on Talent Retention and Workforce Development: Launch specialized space
education programs in universities, integrating disciplines like robotics, astrophysics, and
aerospace engineering.
Establish national-level space training academies to groom a skilled workforce for
advanced missions like Gaganyaan and Shukrayaan-1.
Incentivize research fellowships and retain talent through lucrative career pathways and
international collaborations.
Develop Modular Space Station and Advanced Space Infrastructure: Commit to building
a modular space station to support long-term human presence in space.
Expand launch capacity by upgrading Satish Dhawan Space Centre and establishing
new launch sites with cutting-edge technology for hypersonic and reusable vehicles.
Develop in-orbit servicing and assembly systems for satellite maintenance and expansion
of mission capabilities.
Strengthen Satellite Constellation Development: Accelerate deployment of indigenous Earth
observation, navigation, and communication constellations like NavIC and RISAT to
enhance data sovereignty.
Integrate dual-use satellites that serve civilian and defense needs for applications such
as disaster management and military surveillance.
Encourage private participation in satellite manufacturing through policy incentives.
Foster Space Sustainability and Debris Mitigation: Adopt space situational awareness
 (SSA) technologies to track and manage space debris and prevent collisions.
Invest in de-orbiting technologies and adherence to international standards on debris
mitigation.
Introduce a National Space Sustainability Plan to ensure India’s compliance with global
norms and promote leadership in sustainable space exploration.
Strengthen Strategic Space-Based Defense Capabilities: Expand the role of the Defense
Space Agency (DSA) to develop counter-space technologies, including satellite jammers and anti-
satellite (ASAT) weapons.
Focus on developing dual-use platforms that enhance India’s strategic advantage in
communication, reconnaissance, and navigation.
Collaborate with DRDO to integrate space technologies into national defense frameworks.
Advance International Collaborations for Technology Sharing: Deepen cooperation with
global agencies like NASA, ESA, and Roscosmos to gain access to advanced technology and
shared resources.
Leverage bilateral agreements to participate in international missions like Artemis and
planetary defense initiatives.
Strengthen ties with emerging space nations in Africa and Southeast Asia for space
diplomacy and capacity-building.
Establish a Comprehensive Space Act: Draft a dedicated Space Act to provide a robust legal
framework governing space activities, ensuring clarity on licensing, intellectual property rights,
and dispute resolution.
Codify India’s liability under international treaties like the Outer Space Treaty and
promote ease of doing business in space ventures. Include provisions for private sector
indemnification to attract foreign investments.
Expand Socioeconomic Applications of Space Technology: Leverage satellite-based
geospatial data for precision agriculture, water resource management, and urban planning.
Expand the scope of programs like Bhuvan Geoportal to include telemedicine and e-
education for rural areas.
Integrate space assets into national missions like PM-Kisan, Digital India, and Smart
Cities for transformative impact.
Build Reusable and Hypersonic Launch Systems: Accelerate the development of Reusable
Launch Vehicles (RLVs) to reduce launch costs and enhance mission frequency.
Invest in hypersonic propulsion systems to support rapid deployment of satellites and
exploration payloads.
Collaborate with private firms to operationalize technologies
like scramjets and spaceplanes for next-generation launch capabilities.
Promote Space-Based Entrepreneurship: Create a National Space Innovation
Framework to encourage startups and MSMEs in areas like satellite manufacturing, data
analytics, and payload development.
Offer incubation support through ISRO’s facilities and mentorship programs for
entrepreneurs.
Launch hackathons and space innovation challenges to tap into youth-driven ideas
and solutions

Conclusion

India's space program is at a transformative juncture, marked by significant advancements

in technology, strategic collaborations, and a growing ecosystem of public-private
synergy. While challenges persist in terms of funding, regulatory frameworks, and indigenous capability
development, India’s cost-effective innovations and ambitious missions position it as a rising global space
power.

Drisht Mains Question:

India’s advancements in space technology have the potential to redefine its role in global geopolitics and
socio-economic development. Discuss the challenges and opportunities for India in achieving self-reliance
in space technology.
 UPSC Civil Services Examination, Previous Year Question (PYQ)

Q.1 What is India’s plan to have its own space station and how will it benefit our space programme?
(2019)

Q.2 Discuss India’s achievements in the field of Space Science and Technology. How the application of
this technology helped India in its socio-economic development? (2016)

Q.3 What is the main task of India’s third mood mission which could not be achieved in its earlier mission?
List the countries that have achieved this task. Introduce the subsystems in the spacecraft launched and
explain the role of the ‘Virtual Launch Control Centre’ at the Vikram Sarabhai Space Centre which
contributed to the successful launch from Sriharikota. (2023)

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