Moving from Drone Purchases to Drone Partnerships
Context
The Government of India plans to procure drones worth $2 billion from domestic manufacturers, providing a major boost to the indigenous drone ecosystem.
The initiative aligns with the objectives of Aatmanirbhar Bharat and seeks to strengthen India’s defence manufacturing and technological capabilities.
Significance
The move reflects a major shift in military procurement priorities:
Traditional Approach
- Fighter aircraft
- Tanks
- Heavy artillery systems
Emerging Approach
- Drones
- Autonomous systems
- Loitering munitions
- Swarm technologies
This transition recognises the growing importance of smaller, cheaper, and attritable systems in modern warfare.
What are Attritable Systems?
Attritable systems are relatively low-cost military platforms designed to be:
- Expendable
- Easily replaceable
- Operationally effective despite losses
Their destruction does not impose major strategic or financial costs.
Changing Economics of Drone Warfare
Public discussions often focus on large Uncrewed Combat Aerial Vehicles (UCAVs) such as:
- MQ-9B Reaper
- Bayraktar TB2
However, recent conflicts have demonstrated that micro and nano drones can often deliver greater battlefield impact at a fraction of the cost.
Micro Drones
Definition
Small Unmanned Aerial Vehicles (UAVs) typically weighing:
250 grams β 2 kilograms
Applications
- Surveillance
- Reconnaissance
- Mapping
- Tactical military operations
- Target acquisition
Nano Drones
Definition
Ultra-small UAVs weighing:
Up to 250 grams
Often small enough to fit in the palm of a hand.
Applications
- Indoor surveillance
- Close-range reconnaissance
- Covert operations
- Special forces missions
Drone Classification in India
Under the Drone Rules 2021, drones are classified according to their Maximum All-Up Weight (AUW):
| Category | Weight |
|---|---|
| Nano | Up to 250 g |
| Micro | More than 250 g and up to 2 kg |
| Small | More than 2 kg and up to 25 kg |
| Medium | More than 25 kg and up to 150 kg |
| Large | More than 150 kg |
Lessons from Recent Conflicts
RussiaβUkraine War
The conflict demonstrated that large-scale deployment of inexpensive drones can produce substantial military effects.
Key Observation
Destroying a drone often costs significantly more than producing it.
This creates an economic asymmetry in warfare.
Example
- A low-cost drone may cost a few hundred dollars.
- An interceptor missile may cost tens or hundreds of thousands of dollars.
As a result, militaries increasingly favour:
- Mass production
- Swarm tactics
- Low-cost autonomous systems
Iran’s Drone Campaigns
Drone attacks involving low-cost platforms have highlighted how relatively inexpensive technologies can challenge sophisticated air-defence systems.
Rise of Commercial Drone Innovation
Commercially available drones are increasingly being modified for military purposes.
Benefits
- Lower development costs
- Faster innovation cycles
- Rapid battlefield adaptation
First-Person View (FPV) Drones
A notable example from Ukraine is the use of FPV drones equipped with warheads.
What are FPV Drones?
FPV (First-Person View) drones are operated through:
- Live video feeds
- Real-time visual control
This enables highly precise manoeuvring and targeting.
Advantages
- Low cost
- High accuracy
- Easy scalability
- Rapid deployment
Importance of Civil-Military Collaboration
Innovation in military drones is closely linked with developments in civilian drone technology.
Therefore, effective defence innovation requires cooperation among:
Industry
- Drone manufacturers
- Technology companies
Academia
- Universities
- Research institutions
Military
- Armed forces
- Defence research organisations
China’s Example
China’s rapid emergence as a global drone leader demonstrates the benefits of:
- Integrated innovation ecosystems
- Strong industry-academia partnerships
- Continuous technology development
Challenge of Technological Obsolescence
The biggest challenge in drone warfare is not procurement but maintaining technological relevance.
Short Operational Life Cycle
Unlike:
- Fighter aircraft
- Tanks
- Naval platforms
which can remain effective for decades, tactical drones may become obsolete within:
2β3 years
due to rapid technological evolution.
Evolving Threat Environment
Advancements in:
- Sensors
- Artificial intelligence
- Communication systems
- Electronic warfare technologies
can quickly render existing drone systems ineffective.
Electronic Warfare (EW): A Major Threat
What is Electronic Warfare?
Electronic Warfare (EW) refers to military actions that use the electromagnetic spectrum to:
- Disrupt enemy communications
- Jam signals
- Deceive sensors
- Destroy electronic systems
Impact on Drones
Enemy jammers can adapt to new drone communication systems within:
6β8 weeks
making many drone platforms vulnerable shortly after deployment.
Ukraine’s Adaptation
During the RussiaβUkraine conflict, engineers responded to electronic jamming by:
- Replacing radio communication links
- Using fibre-optic cable-guided drones
This innovation reduced vulnerability to electronic interference and highlighted the importance of rapid technological adaptation.
India’s Existing Procurement Framework
Defence Acquisition Procedure (DAP)
India’s Draft Defence Acquisition Procedure (DAP) allows procurement of:
Commercial-Off-The-Shelf (COTS) Systems
These are commercially available products that can be purchased and deployed with minimal modification.
Benefits
- Faster acquisition
- Reduced development time
- Lower procurement costs
Upgrade Provisions
The DAP also contains provisions for:
- System upgrades
- Capability enhancements
- Equipment modifications
Defence Procurement Manual (DPM)
The Defence Procurement Manual (DPM) provides financial flexibility for:
- Repairs
- Maintenance
- Technology upgrades
- Unexpected operational expenses
Existing Limitation
Current procurement processes remain largely:
Transactional
They focus primarily on:
- Tendering
- One-time purchases
- Hardware delivery
rather than continuous capability enhancement.
Towards a New Procurement Model
Experts argue that rapidly evolving technologies such as drones require a different procurement philosophy.
Managed Service Contract Model
Instead of purchasing drones as standalone products, manufacturers would provide:
- Continuous maintenance
- Software updates
- Hardware upgrades
- Replacement support
- Operational assistance
through long-term service agreements.
Advantages
Continuous Modernisation
Ensures drones remain technologically relevant.
Assured Supply Chains
Maintains availability of spare parts and replacements.
Surge Production Capability
Allows rapid scaling during crises or conflicts.
Predictable Demand
Provides stability for domestic manufacturers.
Improved Military Readiness
Keeps systems operational and effective throughout their lifecycle.
Why This Matters for India
India’s domestic drone industry has matured significantly and possesses the technical capability to support defence requirements.
The proposed $2 billion procurement programme provides:
- Financial support
- Policy momentum
- Market certainty
for indigenous manufacturers.
However, long-term success will depend on moving beyond simple procurement towards enduring partnerships between:
- Government
- Armed forces
- Industry
- Research institutions
Conclusion
Modern warfare increasingly favours mass-produced, low-cost, rapidly adaptable drones over a sole reliance on expensive conventional platforms. While India’s $2 billion drone procurement initiative is a major step toward self-reliance, the real challenge lies in ensuring that these systems remain effective in a rapidly changing technological environment. Therefore, India must transition from a model of one-time drone purchases to long-term drone partnerships, emphasising continuous upgrades, innovation, and sustained operational capability.
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