Tuesday, July 14, 2026

India’s AMCA Stands Out Amid Global Powers Struggle With Stealth Fighter Development


The global race to field fifth‑generation and beyond combat aircraft has proven to be far more complex than many anticipated.

India’s Advanced Medium Combat Aircraft stands out as a rare indigenous program that has reached maturity, even as other nations continue to struggle with the immense technological demands of stealth, propulsion, and systems integration.

Turkey’s KAAN and South Korea’s KF‑21 Boromae are often mentioned in the same breath as the AMCA, but in reality they are not directly comparable. Both remain transitional designs, heavily reliant on foreign inputs, and neither has yet demonstrated the full spectrum of fifth‑generation capabilities.

The AMCA, by contrast, is being designed from the outset with supercruise, advanced networking, and stealth shaping, while also incorporating modular features that can accommodate sixth‑generation technologies in future iterations.

The United States, despite decades of experience, has not been immune to these challenges. Programmes such as the F‑22 and F‑35 have faced spiralling costs, delays, and performance compromises. Even with unmatched industrial depth, the US has struggled to balance stealth, manoeuvrability, and affordability, underscoring how demanding the technology stack has become.

China’s efforts illustrate the same difficulties. The J‑20 has entered service but remains dogged by questions over engine reliability and stealth effectiveness. More telling is the troubled J‑36 project, which has reportedly required three different engine types to compensate for inadequate thrust.

Its monolithic stealth structures are said to be poorly executed, resulting in compromised radar cross‑section and maintenance headaches. Far from being a seamless leap forward, the J‑36 highlights the pitfalls of rushing advanced fighter development without a mature industrial base.

India’s AMCA therefore occupies a unique position. It is not only an indigenous answer to regional threats but also a demonstration that careful pacing, design maturity, and modular planning can yield a credible stealth platform.

The aircraft’s internal payload limitations are offset by its emphasis on aerodynamic performance, service ceiling, and combat radius. With features such as Fly‑by‑Light and integration with future Combat Collaborative Aircraft, the AMCA is being positioned as a bridge between fifth‑ and sixth‑generation paradigms.

The broader lesson is that stealth fighter development is universally difficult. No nation, whether the US, China, or emerging aerospace powers, has found the process straightforward. India’s approach, though slower, may ultimately prove more sustainable, ensuring that the AMCA is not just another prototype but a platform capable of long‑term evolution.

Agencies


Strengthening Zorawar’s Armour Without Sacrificing Mobility


The Indian Army’s announcement that the Zorawar Light Battle Tank requires additional protection is unsurprising.

The tank currently weighs around 25 tonnes, and the Army intends to raise its armour to NATO-level standards capable of defeating 25 mm and 30 mm FSAPDS rounds, as per a report by Observer Research Foundation.

At present, the Zorawar’s armour is limited to STANAG Level 4, which only protects against small- to medium-intensity mines, artillery fragments, and machine gun fire. This leaves the tank vulnerable, and three critical variables demand close analysis.

A technical comparison with China’s Type-15 Light Tank is essential. The Indian Army’s pursuit of stronger armour must be measured against proven benchmarks. The Type-15 demonstrates that survivability can be achieved through modular armour rather than sheer weight. The Indian Army must also ensure that any increase in the Zorawar’s weight aligns with its Land Warfare Doctrine, which emphasises mobility and agility.

Frequent shifts in technical requirements risk delaying the tank’s induction into the Order of Battle, potentially leaving it stuck in prototype status. Finally, advanced materials offer a path to enhanced protection without compromising mobility, creating opportunities for India’s domestic industry and strengthening supply chain resilience.

The Type-15 provides a useful model. It is powered by a 1,000-horsepower diesel engine and features hydropneumatic suspension for navigating difficult terrain. Armed with a 105 mm gun capable of firing both conventional shells and anti-tank missiles, it can penetrate 500 mm of rolled homogeneous armour when using FSAPDS rounds. Its digitised fire-control system integrates a laser for detecting and warning against incoming ATGMs.

Most importantly, its modular armour allows flexible integration of composite armour and ERA. With a combat weight of 36 tonnes, the Type-15 is not particularly light but remains effective in high-altitude terrain such as Ladakh’s Depsang Plains. For India, adopting modular armour would allow future Zorawar variants to incorporate upgrades without excessive weight penalties.

Doctrinal compatibility is critical. India’s Land Warfare Doctrine of 2018 calls for highly mobile and agile forces. The Zorawar must remain consistent with these principles. Engine performance is directly linked to weight, as fuel consumption rises with heavier platforms.

If the Zorawar becomes overweight, it will undermine the very purpose of its development. The Army must therefore avoid compromising operational mobility in pursuit of protection.

Advances in materials science provide a solution. Ceramic armour offers superior protection-to-weight ratios, being lighter, stronger, and highly resistant to ballistic pressure. Adoption can be staged, beginning with alumina, then zirconia-toughened alumina, silicon carbide, and finally boron carbide. 

Each stage improves hardness, reduces weight, and enhances ballistic resistance. With ceramic plating and composites, the Zorawar could achieve NATO STANAG Level 5 and potentially Level 6 protection, ensuring scalability and efficiency.

Domestic industry has a vital role. Indian companies are increasingly engaged in advanced materials research, and procurement from MSMEs specialising in ceramics would strengthen supply chain sovereignty.

This would reduce dependence on foreign suppliers, increase indigenous content, and align with the Atmanirbhar Bharat initiative. Expanding domestic capabilities will also drive innovation, improve cost-effectiveness, and ensure a steady stream of commercial activity.

Ultimately, the Zorawar’s success depends on its ability to balance protection with mobility. Its performance in mountainous terrain will hinge on manoeuvrability and doctrinal compatibility. Future variants must remain upgradable to match or exceed Chinese counterparts.

By leveraging advanced ceramic materials, India can enhance the Zorawar’s protection without compromising mobility or engine efficiency. This approach ensures that survivability and agility coexist, securing the tank’s role as a credible and effective platform for high-altitude operations.

Agencies


India Launches Stratospheric Airship Program With Private Sector Involvement


India has formally launched the ₹15,000‑crore Air Ship‑based High Altitude Pseudo Satellite (AS‑HAPS) program, inviting private sector participation to build stratospheric airships capable of persistent surveillance, intelligence gathering, and communications at altitudes above 20 km, Economic Times reported.

The initiative, cleared by the Defence Acquisition Council earlier this year, is designed to bridge the gap between drones and satellites, with government funding covering up to 70% of development costs.

India has initiated this ambitious plan under the Directorate of Operations (Remote) of the Indian Air Force.

The project will select at least two private partners based on technical and financial strength, with prototypes expected to demonstrate capabilities such as optical surveillance, electronic intelligence, and long‑range communications. The systems are intended to operate continuously for months, providing uninterrupted intelligence.

The AS‑HAPS program is part of the Make-I procurement procedure, which allows significant government funding support. The Defence Acquisition Council approved the project in February, pegging its cost at ₹15,000 crore, including development and procurement of multiple systems. In parallel, the Ministry of Defence is pursuing fixed‑wing High Altitude Pseudo Satellites capable of long‑range missions from ground take‑off.

The airships will be equipped with radars, optical devices, and potentially indigenous sensors, ensuring long‑range surveillance and steerability to areas of interest. While no Indian private company has yet demonstrated such technology, the Defence Research and Development Organisation has already conducted trials, launching an airship to 17 km altitude in May 2025 over Madhya Pradesh.

Globally, stratospheric airship development has faced engineering challenges and high costs. Europe is advancing the EUROHAPS project, with Thales Alenia developing the Stratobus, expected to be ready by the early 2030s. The United States has tested high‑altitude airships but has no operational system in service.

China’s program remains secretive but highly active, with high‑altitude balloons already observed worldwide, including over India. One such balloon was shot down over the United States at 20 km altitude, highlighting the military potential of such systems.

Recent reports emphasise that AS‑HAPS platforms will be powered by solar panels during the day and batteries at night, enabling endurance of months or even years. Unlike satellites, which require costly launches and follow fixed orbits, airships offer re-deployability, easier maintenance, and higher resolution imagery from lower altitudes.

They are expected to provide persistent watch over India’s borders with China and Pakistan, as well as maritime domains in the Indian Ocean Region.

India’s indigenous development journey began around 2023‑24, with CSIR‑NAL conducting prototype trials. A sub‑scale demonstrator flew for eight hours at 3 km altitude in 2024, followed by longer endurance tests.

Full‑scale models are now targeting altitudes of 20‑23 km and endurance of 90 hours by 2027. Private firms such as NewSpace Research & Technologies and Hindustan Aeronautics Limited are contributing, with dedicated manufacturing facilities inaugurated in 2025 to support Atmanirbhar Bharat.

The strategic imperative for AS‑HAPS stems from India’s need for continuous surveillance in contested regions, particularly after the Doklam standoff with China in 2017 exposed gaps in real‑time monitoring.

These platforms will enhance situational awareness, detect troop movements, and act as telecommunications relays, significantly boosting India’s defence posture.

Agencies


DRDO Developing A New Advanced S-Band Instrumentation Tracking Radar For Air Defence And Flight‑Test Tracking


The Defence Research and Development Organisation is developing a new S-Band Instrumentation Tracking Radar that represents a significant leap in India’s indigenous radar technology. 

This system is designed as an advanced multi-target tracker capable of monitoring short-range targets in skin mode, which relies on echo reflection, and medium-to-long-range high-altitude missiles in transponder or beacon mode. Built on solid-state Active Phased Array technology, it is intended to integrate seamlessly with existing range sensor networks to meet automatic search and tracking requirements during critical flight test scenarios, including ballistic missile trials and air defence missions.

The radar operates in the S-Band frequency range between 2900 MHz and 3300 MHz. It employs Digital Beam Forming to achieve precise target acquisition and tracking. It is capable of monitoring both skin objects such as aircraft, cruise missiles, tactical missiles, boosters and missile stages, as well as beacon objects like ballistic payloads.

Its skin detection range extends beyond 250 kilometres for a two-square-metre target at 14 dB signal-to-noise ratio, while the minimum detection range is three kilometres in both skin and beacon modes. The system can track aircraft, tactical missiles, missile stages and boosters with electronic scanning across ±50 degrees in azimuth and 0–70 degrees in elevation. Resolution is 150 metres in range and three degrees in angle, while the power aperture product is at least 124 dBW, combining transmit gain, receive gain and peak power.

The radar is optimised to detect low radar cross-section missiles between 0.1 and 1.0 square metres, cruise missiles, aircraft, medium-range ballistic missiles with ranges up to 400 kilometres at one-square-metre RCS, and the boost phase of long-range ballistic missiles.

Doppler limits are set at 1500 metres per second for medium-range targets and 4500 metres per second for long-range ballistic missiles. It incorporates both high and low range resolution modes to address different classes of targets. By employing non-coherent mode processing, it can track long-range targets equipped with onboard transponders within line-of-sight.

The radar configuration is relocatable and includes a motorised slewable pedestal with locking mechanisms at five-degree intervals in azimuth, a motorised elevation folding mechanism, radar processing electronics with built-in test equipment, a rectifier unit, a redundant liquid cooling unit, and a radar monitoring and control system with remote operator console.

It also features self-calibration capabilities. Measurement accuracy is high, with four-dimensional tracking of range, azimuth, elevation and Doppler, all equipped with timestamps. Accuracy is within 20 metres for range, one-tenth of the beam width for angle, and four metres per second for radial velocity. Resolution is 75 metres in high mode and 200 metres in low mode for range, 1.5 degrees in azimuth, 3.2 degrees in elevation, and 10 metres per second in Doppler.

The scanning posture allows electronic scanning across ±50 degrees in azimuth and 0–70 degrees in elevation. Mechanically, the antenna operates in a staring mode with tilt provisions of 12 degrees by default, 40 degrees for high-elevation or high-speed targets, 0 degrees for maintenance, and 90 degrees for transportation.

The system architecture is comprehensive, comprising an Active Antenna Array Unit with radiating panels, transmit/receive modules, exciter, DBF unit, multi-channel receiver and beam steering unit. Mechanical and thermal systems include a motorised slewable pedestal assembly, redundant liquid cooling unit, antenna cabin with Radome and an external protective dome-shaped Radome.

Power systems consist of a rectifier unit, power distribution units and integrated electrical accessories such as lightning arrestors and earthing systems. An operational shelter provides air-conditioned working conditions with at least 60 dB isolation, housing the radar processing unit, wide-band recorder, two monitoring and display consoles, and up to ten high-performance workstations for data post-processing.

This radar is expected to play a crucial role in India’s missile testing infrastructure, enhancing precision tracking during ballistic missile trials and strengthening air defence capabilities. Its ability to track multiple classes of targets, including low-observable missiles and high-speed ballistic payloads, ensures that it will be a cornerstone of India’s strategic surveillance and defence architecture.

The integration of advanced phased array technology, redundant cooling systems and robust operational shelters reflects DRDO’s emphasis on reliability, survivability and adaptability in diverse operational environments.

Agencies


Vertotech Aerospace Developing Vega Launch Vehicle For High-Frequency Satellite Deployments


Vertotech Aerospace in Bangalore is advancing its Vega launch vehicle program, a dedicated small satellite launcher designed for high-frequency orbital access.

The system promises cost-effective, custom orbital deployments for constellations, with payload capacities up to 600 kg and ambitions of weekly launch cadence.

Vertotech Aerospace has positioned itself as a new entrant in India’s growing private space sector, focusing on the development of Vega, a dedicated launch vehicle tailored for small satellite constellations. The company’s vision is to provide high-cadence access to space, enabling operators to deploy and replenish constellations on demand without the delays associated with shared launches.

The Vega system is being designed to deliver satellites into a wide range of orbital inclinations, from low-inclination Low Earth Orbit (LEO) to Sun-Synchronous Polar Orbits (SSPO).

This flexibility is crucial for operators requiring precise orbital positioning for Earth observation, communications, and scientific missions. By offering dedicated launches, Vertotech aims to eliminate the compromises of rideshare missions, where satellites often need costly orbital transfers to reach their intended slots.

The vehicle, referred to as Vega IV in technical specifications, stands at approximately 18.9 metres in height with a diameter of 1.8 metres. It is a two-stage rocket powered by RP-1 kerosene and liquid oxygen (LOX), with a liftoff mass of around 30 tonnes. The first stage generates thrust of about 80,000 pounds, while the upper stage delivers around 6,500 pounds of thrust. This configuration allows Vega to carry payloads of up to 600 kg to a 500 km orbit, making it suitable for small satellites and cubesat clusters.

Vertotech has emphasised affordability as a key differentiator. By offering competitive pricing for dedicated launches, the company intends to reduce the financial burden on satellite operators, allowing them to allocate more resources to spacecraft development and mission operations. This economic model is particularly attractive for emerging commercial players and research institutions seeking reliable access to space.

The launch cadence is another highlight of the Vega program. Vertotech envisions a schedule of up to one launch per week, subject to spaceport availability and production capacity. Such frequency would place the company among the few global providers capable of supporting rapid constellation deployment and maintenance, a capability increasingly demanded in the era of mega-constellations.

The fairing design of Vega supports a variety of payload configurations, including ESPA Grande spacecraft, dual ESPA deployments, and multi-cubesat rideshare missions. A flight-proven thermal protection system ensures spacecraft safety during ascent, with fairing separation occurring during the upper stage burn.

Vertotech is also building a global spaceport network to expand launch accessibility. Currently, services are available from two U.S. spaceports, with plans to add more sites worldwide by 2026 and beyond. This international footprint will allow customers to select launch locations optimised for their mission requirements.

The development of Vega reflects India’s broader ambition to strengthen its private space ecosystem. With companies like Skyroot Aerospace, Agnikul Cosmos, and Bellatrix Aerospace already making strides, Vertotech’s entry adds momentum to the sector. The focus on dedicated, high-frequency launches aligns with global trends, where operators seek autonomy and flexibility in accessing space.

If successful, Vega could become a cornerstone of India’s private launch capabilities, complementing ISRO’s government-led missions and positioning Bengaluru as a hub for advanced aerospace innovation.

Agencies


GB Texcoat Solution Unveils Apex AeroTex As Indigenous Advanced Material For Aerostats And Stratospheric Balloons


GB Texcoat Solution has unveiled Apex AeroTex, an indigenous advanced material designed for aerostats and stratospheric balloons, marking a significant step in India’s aerospace and defence materials innovation.

The breakthrough combines lightweight construction, high tensile strength, and near-zero helium leakage, enabling longer mission endurance and reduced operational costs.

Apex AeroTex has been engineered specifically for lighter-than-air platforms such as aerostats, stratospheric balloons, and high-altitude airships. The material is based on proprietary TPU nanocomposite multilayer technology, developed through years of research at IIT-Delhi in collaboration with DRDO. This foundation has been refined by GB Texcoat Solution to meet stringent aerospace and defence requirements.

The material offers almost zero helium leakage, which is critical for extending mission durations and reducing the frequency of refills. This feature directly translates into lower operational costs and improved reliability for long-term deployments.

Its ultra-lightweight construction enhances payload efficiency, allowing aerostats and stratospheric balloons to carry heavier surveillance, communication, or scientific payloads without compromising flight performance.

Apex AeroTex also delivers very high tensile strength, ensuring structural integrity even under challenging environmental conditions. This makes it suitable for deployment in border surveillance, disaster management, and strategic communication platforms.

The material’s excellent UV and weather resistance allows it to withstand prolonged exposure in stratospheric environments, where extreme temperatures and radiation levels pose significant challenges.

The multifunctional performance of Apex AeroTex integrates barrier protection, durability, environmental resistance, and lightweight strength into a single platform. This versatility makes it applicable not only in defence and aerospace but also in civilian domains such as telecommunication relays, environmental monitoring, and scientific exploration.

GB Texcoat Solution operates from the Research and Innovation Park at IIT-Delhi, adjacent to advanced materials and aerospace research groups. The company has established itself as a leader in coated and laminated fabric systems, producing mission-grade solutions for aerostats, airships, tethered balloons, and inflatable structures.

Its coated fabric chemistry is designed to resist UV degradation, ozone, salt fog, and extreme temperature swings from –40°C to +80°C, ensuring long service life and reliability.

The development of Apex AeroTex aligns with India’s Atmanirbhar Bharat initiative, reducing dependence on imported materials and strengthening indigenous capabilities in aerospace infrastructure. 

By offering advanced material solutions for lighter-than-air platforms, GB Texcoat Solution positions itself as a key contributor to India’s growing aerospace and defence ecosystem.

This innovation also supports India’s broader ambitions in stratospheric and near-space technologies, complementing recent advances in tactical aerostats and super pressure balloons. Apex AeroTex provides the material foundation for platforms that can deliver persistent surveillance, communication coverage, and disaster-response capabilities at a fraction of satellite deployment costs.

The introduction of Apex AeroTex represents a transformative step in India’s aerospace materials sector. It combines cutting-edge research, indigenous innovation, and practical deployment readiness, ensuring that India remains competitive in the global lighter-than-air and stratospheric technology market.

Agencies

INS Mahendragiri Commissioned With Rolls-Royce MTU Engines To Boost Naval Modernisation


INS Mahendragiri, the sixth Nilgiri-class stealth frigate, has been equipped with four Rolls-Royce MTU-12V-396-TE54 generator sets, each delivering 1 MW of electrical power to ensure mission readiness and operational reliability, announced Rolls-Royce.

This marks a major milestone in Rolls-Royce’s decades-long partnership with the Indian Navy, reinforcing India’s naval modernisation and Aatmanirbhar Bharat initiative.

The stealth frigate INS Mahendragiri was commissioned into the Indian Navy on 11 July in Visakhapatnam, with Defence Minister Rajnath Singh presiding over the ceremony.

Designed by the Indian Navy’s Warship Design Bureau, the vessel incorporates more than 75 per cent indigenous content, advanced stealth features, and modern weapons and sensors.

Rolls-Royce confirmed that the ship is powered by four MTU-12V-396-TE54 generator sets, each capable of producing 1 MW of dependable electrical power. These systems are designed to support complex combat, communication, and operational requirements, ensuring high mission availability and resilience in demanding maritime environments.

On 21 June, Prime Minister Narendra Modi presided over the commissioning of three naval ships, including INS Agray and INS Dunagiri, which also utilise Rolls-Royce MTU solutions.

INS Agray, an Arnala-class Anti-Submarine Warfare Shallow Water Craft, is propelled by three MTU 20V 4000 M93L engines, enabling speeds of up to 25 knots and superior manoeuvrability in shallow waters. INS Dunagiri, like Mahendragiri, is a Nilgiri-class stealth frigate equipped with the same MTU-12V-396-TE54 generator sets.

Rolls-Royce executives emphasised the significance of these inductions. Sashi Mukundan, Executive Vice President (Transformation), Rolls-Royce India, described the commissioning of Mahendragiri, Agray, and Dunagiri as milestones in the company’s longstanding partnership with the Navy. He highlighted that the collaboration underscores Rolls-Royce’s commitment to strengthening India’s indigenous defence capabilities and supporting long-term strategic objectives.

G S Selwyn, Executive Vice President at Rolls-Royce in India and Managing Director of Rolls-Royce Power Systems in India, stated that the company takes pride in supporting the Indian Navy with power and propulsion solutions.

He stressed that Rolls-Royce technology is designed to deliver dependable performance and operational assurance, ensuring the fleet’s mission readiness and enabling the Navy to meet its operational objectives.

The Nilgiri-class frigates, built by Mazagon Dock Shipbuilders Limited (MDL) and Garden Reach Shipbuilders & Engineers (GRSE), represent a generational leap in India’s indigenous warship design and construction. They feature advanced stealth technology, reduced radar signatures, high automation, and modern combat systems.

Rolls-Royce’s relationship with the Indian Navy spans decades, with more than 1,400 Rolls-Royce engines currently powering platforms across the Indian Air Force, Navy, Coast Guard, and Army. The company employs over 4,000 people in India, including 2,800 engineers engaged in global development programs, further strengthening its role in India’s defence ecosystem.

The commissioning of Mahendragiri, alongside Agray and Dunagiri, marks a significant step in India’s naval modernisation drive. It also reflects the government’s Aatmanirbhar Bharat vision, showcasing the growing capability of domestic defence industries and their integration with trusted global partners like Rolls-Royce.

These developments highlight India’s determination to build a resilient, sovereign naval force capable of safeguarding national interests and contributing to collective security in the Indo-Pacific region.

Rolls-Royce


GoFloat Develops Drone Crash Safety System For Defence Payload Protection


GoFloat, a Mumbai-based defence technology start-up, has unveiled a pioneering Drone Crash Safety System designed to protect military drones and their payloads during unexpected mid-air failures.

This innovation represents a significant advancement in unmanned aerial vehicle engineering, with a clear emphasis on payload recovery and mission continuity rather than simply preventing crashes.

The system functions by automatically detecting a sudden fall, whether caused by motor failure, depleted batteries, GPS glitches, or operator error.

Once the descent is identified, the mechanism deploys an advanced airbag just before impact. This intelligent buffering ensures that the drone’s hardware is shielded from destruction, while critical mission data stored onboard remains intact even in the event of a crash.

GoFloat’s design also accounts for scenarios where drones land in water. The airbag system provides buoyancy, preventing the UAV from sinking and allowing recovery teams to retrieve both the drone and its payload.

This dual capability of impact cushioning and flotation makes the system particularly valuable for maritime and coastal defence operations, where drones are frequently deployed for surveillance and reconnaissance.

The technology marks a shift in UAV safety philosophy. Traditionally, drone engineering has focused on preventing crashes through redundancy and control systems. GoFloat’s approach acknowledges that failures are inevitable in complex missions and instead prioritises risk mitigation and payload preservation. This ensures that even in adverse conditions, mission-critical intelligence is not lost.

The system is tailored for defence applications, where drones often carry sensitive sensors, encrypted communication modules, or surveillance data that cannot be compromised. By safeguarding these payloads, the technology enhances operational resilience and reduces the risk of mission failure. It also lowers replacement costs by protecting expensive hardware from complete destruction.

GoFloat’s innovation aligns with India’s broader push for indigenous defence solutions under the Aatmanirbhar Bharat initiative. The company has already been working on advanced marine safety and defence technologies, including autonomous underwater vehicles and tactical flotation aids. The Drone Crash Safety System adds another layer to its portfolio, demonstrating the start-up's ability to address critical gaps in UAV safety and survivability.

The development also reflects the growing ecosystem of Indian defence start-ups that are introducing disruptive technologies in aerial and maritime domains. By focusing on practical solutions such as payload recovery, GoFloat is contributing to a more robust and self-reliant defence infrastructure. Its work highlights the importance of start-ups in shaping the future of India’s military technology landscape.

This system is expected to be particularly useful in high-risk missions, including border surveillance, maritime patrols, and battlefield reconnaissance. In these scenarios, the ability to recover drones and their data after a crash could prove decisive in maintaining operational advantage.

GoFloat’s Drone Crash Safety System represents a new paradigm in UAV engineering. By combining intelligent detection, airbag deployment, and flotation capability, it ensures that drones remain valuable assets even in failure scenarios. This innovation underscores India’s growing expertise in indigenous defence technology and its commitment to safeguarding mission-critical operations.

Agencies


SpaceFields Inaugurates 42,000 Square Feet R&D Facility In Bangalore


SpaceFields has inaugurated its new 42,000 square foot integrated R&D facility in Bangalore, a DSIR-recognised and ISO-certified workspace designed to accelerate India’s next generation of propulsion, energetics, and advanced manufacturing technologies.

The event was marked by the presence of senior defence officials, industry partners, and investors, underscoring the strategic importance of this milestone.

The inauguration ceremony was graced by Vice Admiral Sanjay Vatsayan, Flag Officer Commanding-in-Chief of the Western Naval Command, who served as the Chief Guest. Senior officers from the Indian Air Force, including Air Commodore MPS Virk and Wing Commander Sandeep Gaddam, as well as Commodore Gaurav Singh Rathore and Captain Anup Thomas from the Naval Armament cadre, also attended. Their presence highlighted the defence establishment’s recognition of SpaceFields’ growing role in India’s strategic technology ecosystem.

The dignitaries were given a detailed briefing on the facility’s infrastructure, capabilities, and ongoing developmental projects. The new centre integrates chemistry laboratories, prototyping facilities, and design infrastructure, enabling end-to-end innovation in propulsion and energetics. This marks a significant expansion of SpaceFields’ ability to deliver indigenous solutions for rockets, missiles, drones, and pyrotechnic systems.

The event was also attended by investors, customers, industry partners, incubator mentors, and well-wishers. Their participation reflected the strong ecosystem of support that has enabled SpaceFields to grow from a student-led experiment into a deep-tech enterprise.

The company has already secured multiple contracts under the Ministry of Defence’s Innovations for Defence Excellence (iDEX) programme and has built partnerships with organisations such as Hindustan Aeronautics Limited, Bharat Electronics, and the Indian Navy.

SpaceFields’ journey began with its founders experimenting with rudimentary rockets built from PVC pipes and fertiliser-grade chemicals. Over the past decade, this passion has evolved into a company that now develops advanced propulsion systems and solid propellants.

By focusing on propulsion—a critical but less crowded segment of India’s defence and space ecosystem—the company has positioned itself as a strategic player in reducing dependence on foreign suppliers and refurbishing ageing missile stockpiles.

The new facility will accelerate the development of indigenous propulsion technologies, supporting India’s broader objective of achieving self-reliance in critical strategic sectors.

It also strengthens Bengaluru’s position as a hub for aerospace and defence innovation, complementing the city’s existing ecosystem of research institutions, start-ups, and defence organisations.

The inauguration represents not only a milestone for SpaceFields but also a step forward in India’s ambition to build a globally competitive defence and aerospace industry.

With strong venture capital backing, multiple patents, and a growing portfolio of R&D contracts, SpaceFields is poised to play a pivotal role in shaping the future of propulsion and energetics in India.

Agencies


India Strongly Condemns Hormuz Vessel Attacks, Urges Iran And US To Halt Escalation Immediately


India has lodged a strong protest with Iran after two vessels carrying Indian crew were attacked in the Strait of Hormuz, leaving one sailor dead and several injured.

The Ministry of External Affairs (MEA) has condemned the strikes, demanded an immediate halt to such violence, and urged both Iran and the United States to de-escalate and return to dialogue. Meanwhile, President Donald Trump has reinstated a naval blockade on Iran and announced a controversial 20% fee for securing the strait, further heightening tensions.

India has said it is closely monitoring developments in West Asia and reiterated its call for safe and unimpeded navigation through the Strait of Hormuz, stressing that the free flow of commerce is vital for global energy and economic security.

MEA spokesperson Randhir Jaiswal confirmed that the ministry summoned the Deputy Chief of Mission of Iran in New Delhi to convey India’s strongest protest over the attacks on MT Al Bahiyah and MT Mombasa.

The two vessels were carrying a combined crew of 46, including 30 Indian nationals. On MT Al Bahiyah, one Indian sailor was killed and another injured. On MT Mombasa, nine Indians sustained injuries, two of them seriously. India extended condolences to the family of the deceased and wished a speedy recovery to the injured. The Indian Mission and Post in the UAE are coordinating with Emirati authorities to provide assistance to the affected crew.

The MEA statement described the attacks as acts of violence targeting seafarers and disrupting free navigation, and emphasised that such targeting of commercial shipping and civilian infrastructure must cease immediately. India also expressed deep concern over the resumption of hostilities in West Asia and called for a return to diplomacy to restore peace and stability.

Jaiswal underlined that Iran and the United States must come to the negotiating table, stressing that dialogue and diplomacy are the only path forward. India’s position is consistent with its earlier calls for restraint and de-escalation since the conflict erupted in February.

The attacks come amid a fresh escalation between Washington and Tehran. Reports confirm that Iranian missiles struck the Emirati tankers MT Al Bahiyah and MT Mombasa in Omani waters, killing one Indian sailor and injuring several others. The UAE Defence Ministry has warned of retaliation, while Bahrain and Jordan have also reported Iranian strikes on US-linked facilities. Since the war began, at least 14 Indian seafarers have lost their lives in the region.

President Trump has announced that the US is reinstating the Iranian blockade and will charge a 20% fee on all cargo shipped through the Strait of Hormuz. He declared that the US will act as the “guardian of the strait” and ensure it remains open, but insisted that wealthy nations benefiting from the strait must reimburse America for its protection. This marks a sharp departure from longstanding US policy of supporting freedom of navigation without tolls.

The blockade and renewed strikes have already pushed oil prices above $87 per barrel, raising fears of inflationary pressures worldwide.

Analysts warn that prolonged hostilities could severely disrupt global energy supplies, with India particularly vulnerable given its dependence on Gulf oil and the large number of Indian nationals working in the region.

India’s diplomatic outreach highlights the urgency of protecting seafarers and restoring stability in one of the world’s most critical maritime chokepoints. The government has made clear that attacks on vessels must stop at the earliest, and that peace in West Asia is essential for global security.

ANI


India Reaffirms Support For UNCLOS In South China Sea Disputes


India has reiterated that its position on the South China Sea remains clear and well‑known, emphasising freedom of navigation and overflight in accordance with international law as reflected in UNCLOS.

The Ministry of External Affairs spokesperson Randhir Jaiswal underlined that maritime disputes must be resolved peacefully and in line with UNCLOS provisions. He described the arbitral ruling delivered ten years ago as a significant milestone and a foundation for peaceful resolution among concerned parties.

The statement came as the tenth anniversary of the arbitral award was marked on 12 July. The Tribunal, constituted under Annex-VII of UNCLOS, had ruled in favour of the Philippines against China, invalidating Beijing’s sweeping maritime claims. India highlighted that the ruling remains an important reference point for lawful settlement of disputes and the maintenance of unimpeded trade routes.

On 11 July, a coalition of 14 countries including the United States, Japan, Australia, Canada, Germany, Italy, and the United Kingdom reaffirmed the 2016 arbitral ruling. Their joint statement declared that China’s expansive maritime claims in the South China Sea have “no legal basis” and reiterated commitment to a free and open Indo‑Pacific that is peaceful, stable, and rules‑based. They stressed that the decision remains final, legally binding, and definitive between China and the Philippines.

The coalition urged all parties to abide by the award and settle disputes through dialogue and lawful mechanisms consistent with international law. The European Union also issued a statement through its High Representative, calling for full implementation of the ruling.

The EU emphasised that the award is final and legally binding on both China and the Philippines and must be respected.

China has consistently rejected the ruling and refused to recognise its validity despite repeated calls from the Philippines and international partners. The Permanent Court of Arbitration in The Hague had issued the unanimous decision in 2016, marking the first time an international tribunal ruled on the legal validity of maritime claims in the South China Sea.

The most consequential aspect of the ruling concerned China’s “Nine‑Dash Line,” which claimed historic rights over nearly 80 per cent of the South China Sea. The Tribunal concluded that such historic rights had no legal basis under UNCLOS and were extinguished if incompatible with maritime zones established by the convention. This landmark decision continues to shape the legal and diplomatic discourse surrounding the South China Sea.

India’s reaffirmation of its stance underscores its consistent support for international law and peaceful resolution of disputes. It also reflects New Delhi’s broader strategic interest in ensuring stability and freedom of navigation in the Indo‑Pacific, a region critical for global trade and security.

ANI


Rafale Gets Low‑Cost Rocket Fix To Counter Shahed Like Drone Swarms


France has completed the integration of 68 mm laser‑guided rockets on Rafale fighters under the Ladac programme, giving the French Air and Space Force a rapid, low‑cost counter‑drone capability.

The system will enter service by the end of July 2026, providing a cheaper alternative to expensive air‑to‑air missiles against Shahed‑style drones.

France has successfully fitted Rafale fighters with 68 mm laser‑guided rockets, marking a significant step in counter‑drone warfare. The initiative is part of the Ladac program, designed to provide an affordable and effective means of tackling the growing threat posed by unmanned aerial systems. This development reflects the urgent need for sustainable solutions as drones proliferate in modern conflicts.

The Directorate General of Armaments (DGA) confirmed that the integration test campaign concluded on 7 July 2026. Remarkably, less than eight months passed between contract award and delivery of the first operational capability.

The program was executed in partnership with the Centre d’Expertise Aérienne Militaire (Ceam), Dassault Aviation and Thales, demonstrating France’s ability to accelerate procurement in response to operational demands.

The first batch of launcher pods, rockets and Talios laser designation pods configured with Ladac mode will begin reaching frontline units at the end of July. This will pave the way for full qualification of the system, ensuring Rafale squadrons are equipped to meet the deployment timeline set earlier this year. The capability is expected to be fielded across both Rafale and Mirage-2000D fleets.

French Air and Space Force chief General Jérôme Bellanger had called for the integration of laser‑guided rockets in October 2025, citing the need to counter long‑range one‑way attack drones such as Iran’s Shahed‑136. The DGA evaluated multiple solutions before selecting the already‑qualified 68 mm rocket, previously integrated on Tiger attack helicopters, as the most practical option.

Since February 2026, engineers have conducted extensive flight trials. These included radar detection, Talios pod tracking, laser designation, carriage of rocket pods, live firing and guidance against representative aerial targets. The trials validated the system’s ability to engage drones effectively while preserving costly missile stocks.

The cost advantage is striking. A French MICA missile costs around $2 million, while a Shahed drone is valued at approximately $50,000. Using guided rockets costing tens of thousands of euros provides a far more favourable cost exchange. This ensures that French forces can sustain prolonged operations without exhausting high‑value missile inventories.

The Ladac program also reflects lessons from recent conflicts. Western air forces have recognised that using advanced air‑to‑air missiles against cheap drones is unsustainable. The United States has already integrated 70 mm APKWS rockets on fighters such as the F‑15E, F‑16 and A‑10, which have been employed operationally in the Middle East since 2024. The UK Royal Air Force has similarly equipped its Typhoons with APKWS rockets for regional operations.

Technical details highlight the system’s versatility. The Thales Aculeus‑LG 68 mm rocket, launched from Telson JF12 pods, offers a range of 3.7–5 km with semi‑active laser guidance. Each pod can carry multiple rockets, significantly increasing magazine depth compared with single‑shot missiles. The Rafale’s RBE2 AESA radar and Talios targeting pod provide detection, tracking and laser designation, enabling precise engagements against small, slow‑moving aerial threats.

Operationally, the rockets provide layered defence by complementing existing missile systems. They allow Rafale fighters to neutralise drones without expending costly Meteor or MICA missiles, thereby preserving these assets for high‑value targets. The system also enhances firepower by enabling multiple rockets to be carried on a single weapons station.

France’s rapid integration of this capability underscores its determination to adapt to evolving threats. 

The Ladac program demonstrates how accelerated procurement and innovative use of existing technology can deliver operational solutions in under a year. It also signals a broader shift in air combat doctrine, where affordability and sustainability are now as critical as precision and lethality.

Agencies


India And US Officials Dismiss ‘Fake News’ Reports of Trade Deal Rejection


US Ambassador Sergio Gor and Commerce Minister Piyush Goyal have firmly rejected reports claiming India turned down a quick trade deal with Washington, branding them “fake news” and “completely false.” Both sides insist negotiations remain constructive, with the agreement nearly finalised and no major hurdles reported.

US Ambassador to India Sergio Gor on Monday directly countered media speculation that New Delhi had rejected an expedited trade agreement. He described the coverage as “fake news” and stressed that both nations remain actively engaged in finalising the pact. Gor emphasised that meetings between negotiators have been highly constructive and reaffirmed mutual commitment to concluding the deal.

The rebuttal was issued in response to an international agency report citing unnamed officials and analysts. That report alleged India was holding out for superior terms, supposedly driven by Prime Minister Narendra Modi’s confidence stemming from new trading partners, reduced economic risks, and political gains at home. Gor’s sharp dismissal underscored Washington’s determination to push past speculation and maintain momentum toward a comprehensive agreement.

Commerce and Industry Minister Piyush Goyal also rejected the claims, calling them “completely false, baseless and misleading.” He highlighted his “fantastic meetings” with US Trade Representative Jamieson Greer during the latter’s visit to New Delhi in June.

Minister Goyal reiterated that both countries are committed to a balanced and commercially meaningful agreement that delivers tangible benefits for businesses, farmers, workers, and consumers on both sides.

Goyal stressed that teams remain fully engaged in achieving this objective. He pointed out that negotiations are progressing smoothly and that there are no obstacles to concluding the agreement. His remarks were reinforced by Commerce Secretary Rajesh Agarwal, who briefed the media on June trade data and confirmed that talks are advancing in the right direction.

Agarwal stated, “We don’t see any challenge on India-US trade deal negotiations,” adding that consultations remain positive and the framework is ready for signing when both sides deem the timing appropriate.

Additional context shows that the bilateral trade agreement is already in its final stages. US Ambassador Gor previously noted that the deal is “99 per cent complete,” with negotiators working through the last technical and legal details. He compared the pace favourably to the India-EU trade deal, which took nearly two decades to conclude. The US-India agreement has been under negotiation for about 18 months, and officials on both sides have expressed confidence that the remaining issues will be resolved soon.

The broader trade relationship continues to strengthen, with bilateral commerce expanding significantly over the past two decades. Energy imports from the US have also grown, reflecting the deepening economic ties. Analysts note that while Washington has introduced new tariff measures under Section 122 and Section 301 of the Trade Act, both governments remain committed to ensuring the final agreement is balanced and mutually beneficial.

The latest denials from Gor, Goyal, and Agarwal collectively reinforce that neither side has rejected the deal. Instead, they highlight a shared determination to conclude negotiations successfully, despite external speculation. The emphasis remains on delivering a pact that secures long-term benefits for both economies and strengthens strategic ties.

ANI


US Employs Sea Drones In First Combat Strike On Iran’s Bandar Abbas Naval Base


CENTCOM has confirmed that three Corsair unmanned surface vessels struck Iran’s Bandar Abbas Naval Base on Sunday, marking the first-ever combat use of American sea drones. The attack targeted a submarine and ship maintenance facility, significantly degrading Iran’s ability to threaten commercial shipping in the Strait of Hormuz.

The United States Central Command announced that the operation involved multiple one-way attack surface drones. Three Corsair unmanned vessels were deployed against the port at Bandar Abbas Naval Base. This strike represented a historic first, as American forces had never before employed sea drones in combat operations.

The footage released by CENTCOM showed the drones racing towards the Iranian naval complex. Surveillance imagery identified the vessels as they approached the dockyard. Onboard camera footage captured the moment of impact, with explosions engulfing the targeted infrastructure in flames and thick smoke rising over the base.

The Bandar Abbas Naval Base is one of Iran’s most critical military installations. It serves as a hub for the Iranian Navy and the Islamic Revolutionary Guard Corps’ naval forces. Its location near the Strait of Hormuz gives it immense strategic importance, as the waterway handles nearly one-fifth of global energy trade.

The strike specifically hit a submarine undergoing maintenance beneath a yellow gantry, alongside facilities essential for servicing and repairing naval platforms. By targeting these assets, the United States aimed to disrupt Iran’s ability to sustain fleet operations and continue its campaign against international shipping.

The Corsair drones used in the attack are autonomous unmanned surface vessels designed for one-way strike missions. Each vessel is approximately 24 feet long, capable of speeds up to 35 knots, and can carry a payload of around 1,000 pounds over a range exceeding 1,000 nautical miles. Their expendable nature allows them to penetrate heavily defended naval facilities without risking American personnel.

This operation formed part of a broader campaign by Washington to degrade Iran’s offensive capabilities. In recent days, US forces have struck Iranian air defence systems, coastal radars, missile and drone sites, and small boats. The Bandar Abbas raid was timed to follow Iranian attacks on commercial shipping, including container vessels transiting the Strait of Hormuz.

Iran’s Persian Gulf Strait Authority responded by declaring that passage through the Strait of Hormuz was “currently unfeasible” due to hostile US actions. Iranian media also warned of imminent retaliation, with state outlets vowing revenge against Washington and its allies.

The deployment of sea drones marks a turning point in maritime warfare. By integrating autonomous strike platforms, the United States has expanded its operational reach while reducing risks to personnel. Analysts suggest this could redefine naval strategy, offering new options for deterrence and freedom of navigation in contested waters.

The attack also underscores the escalating confrontation between Washington and Tehran. With the ceasefire effectively collapsed, both sides continue to trade strikes across the region. The use of Corsair drones signals that the United States is prepared to employ cutting-edge technology to maintain control over vital shipping lanes.

Agencies


Two Brothers Found Killed In Balochistan After Accusations of Custodial Killings by Pakistani Forces


Two brothers from Mand in Balochistan’s Kech district have been foundTwo brothers who had reportedly gone missing after allegedly being detained by Pakistani security personnel were later found dead in Balochistan’s Kech district. The incident has sparked outrage among residents and human rights organisations, who described the deaths as custodial killings.

The victims were identified as Imam and Muhammad Umar, sons of Muhammad Ilyas, hailing from Shaban Bazaar in Mand. According to The Balochistan Post, both men worked as labourers in the Kuntani area of Jiwani. On the day of the incident, they were returning home to Mand on a motorcycle when they stopped near Balicha Cross after running out of fuel.

Local witnesses claimed that Pakistani security forces detained the brothers at the spot. Their family later received their bodies through local police, with both reportedly bearing gunshot wounds. The sudden deaths shocked relatives and residents, who questioned the circumstances under which the men were killed.

Funeral prayers were held before the brothers were buried in their ancestral graveyard in Soro, Mand. The community expressed grief and anger, demanding clarity on how the men lost their lives. Local sources emphasised that the brothers were civilians returning from work, not militants.

Before the victims were formally identified, several social media accounts supportive of the Pakistani military circulated claims that two suspected militants had been killed during an operation in the area. However, residents later identified the deceased as Imam and Muhammad Umar, rejecting the militant narrative and insisting they were ordinary labourers.

Pakistan’s military and government authorities have not issued any official statement addressing the allegations surrounding the detention or deaths of the brothers. The silence has further fuelled suspicions and criticism from rights groups and activists.

Paank, the human rights department of the Baloch National Movement, condemned the incident as an extrajudicial killing. The organisation demanded an immediate, transparent and independent investigation to establish the facts and ensure accountability if the allegations are verified.

This case adds to a growing list of similar incidents in Balochistan, where families allege their loved ones were taken into custody and later found dead. Rights organisations have repeatedly warned that such practices deepen mistrust between the state and Baloch communities, while perpetuating cycles of violence and instability in the province.

ANI