Thursday, December 5, 2013

DRDO Breakthrough in Canister Launch Technology, Agni-V Canister Launch in March-April 2014

Agni-5 second test on September 15, 2013. Photo Credit: DRDO

On December 5, 2013, The Hindu reported that recently DRDO successfully carried out a “Missile Ejection Test” (MET) using a dummy missile weighing 50 tons. Following the breakthrough, Agni-V would be launched from a canister in March-April, 2014 for its third test.

The MET validated critical newly developed technologies such as launcher-canister interface and effective sealing between the missile and gas generator. The missile exited the canister at the correct velocity and the inter-facing instruments, electronics and sensors worked perfectly. As the missile cleared the canister by 15m, the sensors accurately signaled first stage ignition to the missile computer.

Placing the missile in a hermetically sealed canister facilitates long term storage (10 years) without any maintenance.  DRDO has committed to make canister launch a feature of all its new land based strategic missiles, starting with Agni-V.

DRDO has designed a canister that can eject the 50-tonne missile 50 m in the air and fire the first stage. The missile canister is made of maraging steel allowing it to withstand the 300-t to 400-t shock generated when the 50-ton missile is ejected out.

In September 2012, ASL director of, Dr V G Sekharan, told Business Standard, "The gas pushes the Agni-V out, like a bullet from the barrel of a gun. In less than half a second, the 50-tonne missile clears the canister by 15-m, and that is when the rocket motor can safely ignite. In 30 seconds, the Agni-V breaks the sound barrier and, in 90 seconds, it has left the atmosphere."

The canister could be carried on railcars or on a 12x12 road-mobile truck. Carrying the missile on a road-mobile launcher gives more flexibility as it can be launched from any patch of level ground. The Agni-5 is tailored for road-mobility. The mobile launcher for Agni-V is being produced by the private industry.

Canister technology was initially developed for the naval variant of Brahmos missile. The technology was completely mastered during the development of the K-15 / Shourya missiles. However, canister launch technology doesn't scale well.. In order to develop a 50-t missile canister launch capability, the DRDO has set up a facility for MET  at Shamirpet near Hyderabad.

For additional details on the Agni-V please visit the link below

Agni-V LRBM - IDP Sentinel

Wednesday, December 4, 2013

Indian Navy Proposes Round 2 of Kilo Class Submarine Overhaul

INS Sindhurakshak after its overhaul at Zvezdochka shipyard.

The Indian Navy (IN) intends to get four of its Kilo class subs overhauled in Zvezdochka shipyard in North Russia to extend their lives by another 10 years, Vice-Admiral Satish Soni, Flag Officer Commanding-in-Chief of the Southern Naval Command, said on Tuesday December 3, 2013. [via TOI]

Earlier, the General Director of the Russian submarine repair at Zvyozdochka, Vladimir S. Nikitin, told The Hindu that the shipyard was close to signing a contract for life-extension refit of two Indian Kilo-class submarines in 2015.

In January 2013, the Indian Navy (IN) completed the overhaul and upgrade of its 10 Kilo class (Project 887EKM) submarines under a deal signed in 2001.

Each upgrade cost $80 million and involved complete overhaul of the submarine and its hull structures; installation of an improved control system, sonar, electronic warfare system, and an integrated weapon control system. Additionally the subs are being equipped to launch Club-S missiles from its torpedo tubes.

The refit included support for the new version of Klub-S (3M54E1 anti-ship and 3M14E land attack) cruise missiles and over ten Indian and foreign-made systems including the Ushus hydro-acoustic (sonar) system and CSS-MK-2 radio communications system.

In addition, the boat's cooling system was modified, the Porpoise radar fitted and other work carried out "increasing the boat's military capacity and safety."

Two submarines - INS Sindhuvir and INS Sindhuraj - were modernized at the Admiralty Shipyard in St. Petersburg.

Later, five subs - INS Sindhukesari, INS Sindhuratna, INS Sindhugosh and INS Sindhuvijay and INS Sindhurakshak - were modernized at  - Zvyozdochka Shipyard in Severodvinsk.

Of the remaining 3 subs, one has already been overhauled in India, and another two are in the process of being overhauled.

Kilo class submarines were developed by the Rubin Central Design Bureau (St. Petersburg).

The Indian Navy also plans to extend the lives of its two HDW (Shishumar Class) submarines through an overhaul and refit at Mazagaon Docks.

For additional details on the Kilo class subs and their upgrades please visit the link below

Monday, December 2, 2013

Arihant SSBN Reload Nuclear Core Goes Critical

Arihant SSBN at the time of its launch in 2009

On December 2, 2013, Deccan Herald reported that the replacement core of Arihant’s nuclear reactor had attained criticality on October 11, 2013 at the secretive P4 facility  inside the Bhabha Atomic Research Center in Mumbai.

“The reload core would be fitted into the Arihant at the time of refueling, which may come after 7-8 years depending on the journey the submarine undertook. At the time of refueling, the entire core will be changed,” a nuclear scientist told Deccan Herald.

The core of a nuclear reactor is the component where controlled nuclear fission takes place producing heat, which is used to generate steam and, in turn, drive generators to produce electrical power to propel the submarine and meet its other energy requirements.

In November 2013, CNS DK Joshi told NDTV that INS Arihant would soon set sail for her sea trials and would be commissioned by end 2014.

In September 2013 Frontier India reported that diving trials of the sub have been deferred awaiting the arrival of a Bester-1 Deep Submergence Rescue vehicle (DSRV) ordered from Russia's Admiralty Shipyard.

Earlier in December 2010, the Indian Navy had initiated procurement of 2 free Swimming DSRVs by floating request for information. Russia's Admiralty Shipyards (Bester-1 rescue submersible) and Britain's James Fisher and Sons PLC are in contention for the contract.

The reactor of the submarine went critical on Friday, August 9, 2013. ( PTI )

For additional details on the Arihant please visit the link

INS Arihant SSBN (IDP Sentinel)

Thursday, November 7, 2013

A Question for Praveen Swami, Which The Hindu Won't Let me Ask?


Heron UAV of IN.

In an op-ed titled The looming debate over drones in The Hindu, Praven Swami makes a case that attacking terrorists and their supporters with drones, as the US does, is unethical.

I posted the following comment on the op-ed, but The Hindu refused to carry it.

"After a very rational discussion, the author, almost quixotically, invokes the imperatives of due process and criminal justice in dealing with terrorists and those abetting terrorism.

'That might be acceptable in war — but it is not in fighting insurgencies against citizens.'

Terrorism is war, a war of the worst kind, where the aggressor targets innocents, without provocation or warning.

The US has declared a war on terrorism and its use of drones to surgically strike the enemy and those abetting the enemy is justified.

Criminal justice has no place in war.

A country has the right to declare war when a conflict that endangers its existence cannot be resolved through talks. If India declares war on terrorism, its use of drones would be justified.

If a man is holding a gun to my head, I would want the police to shoot him dead with the first bullet. In similar circumstances, would the author prefer the man holding the gun be given a chance to explain his conduct in court?"

I like to ask simple question... because they are difficult to evade.

BTW, Praveen Swami appears unaware of the fact that India currently doesn't have armed UAV's with which to attack terrorists. But then journalists have to write something...

SR-72: Learn What Powers the Game Changing Concept

SR-72 Concept. Photo Credit: Lockheed Martin
Lockheed recently announced plans to develop the SR-72, an unmanned aircraft capable of cruising at Mach 6. The SR-72 is being projected as a successor to the SR-71 manned spy plane and is referred to as Son of the Blackbird by the latest issue of AW&ST. Conceptually, the two aircraft are similar but modern technology would probably make the SR-72 far more lethal than its predecessor.

The SR-71 Blackbird was developed in the 1960s by Lockheed's Skunk Works division and served with the U.S. Air Force from 1964 to 1998. A total of 32 aircraft were built of which 12 were lost in accidents. No SR-71 was downed by enemy action as the aircraft would easily outrun any attacking enemy missile.

The SR-71 cruised at Mach 3.2 using it's unique Pratt & Whitney J58-P4 engine, a turbojet ramjet hybrid. The engine encapsulated a conventional turbojet within a ramjet, with the turbojet producing most of the power at speeds upto Mach 2.8 and the ramjet doing most of the thrusting thereafter.

The engine featured a two stage compressor, with some of the air from the first stage compressor being directed to the afterburner and the rest being routed to the afterburner through the a second stage compressor and turbine.

At low speeds most of the first stage compressor air would be directed to flow through the second stage compressor and turbine and the J58-P4 would function largely like a conventional jet. At high speeds the shock cone of the engine and first stage would compress and heat the airflow to an extent where routing it through the turbojet would be unsafe, as it would result in excessive heat generation and melting of the turbine blades. Therefore, most of the first stage compressor air would be routed directly to the afterburner effectively turning the J58-P4 into a ramjet; only a small amount of air would flow through the turbojet portion.

The J58-P4 engine could produce a static thrust of 32,500 lbf (145 kN) and cruise efficiently at speeds around Mach 3.2.

The maximum speed of the SR-71 was restricted to Mach 3.2 because the aircraft's compressor inlet temperature couldn't exceed 800 °F (427 °C).

Engineers at Lockheed Martin's Skunk Works lab in Palmdale, California, claim to have solved the problem, but haven't revealed details of their solution.

Following the SR-71's retirement in 1998 technology has advanced and studies have shown that inlets speeds of Mach 6 should now be possible.

Ramjet Gives Way to Scramjet in SR-72

Ramjets support higher cruise speeds because they have no moving parts - there is no fear of turbine blades melting! However, ramjets are limited to speeds a little above Mach 3 since the airflow within them is subsonic. In order to facilitate cruise at Mach 6 a ramjet would need to support supersonic flow within its combustion chamber. Such engines are referred to as scramjets.

Lockheed's Skunk Works has been working with Aerojet Rocketdyne for several years to develop a method to integrate an off-the-shelf turbine with a supersonic combustion ramjet air breathing jet engine to power the SR-72 from standstill to Mach 6.

Skunk Works aircraft earlier partnered with the Defense Advanced Research Projects Agency (DARPA) to develop the the rocket-launched Falcon Hypersonic Technology Vehicle 2 (HTV-2). The HTV-2 achieved flight speeds of Mach 20, or 13,000 mph, with a surface temperature of 3500°F and the project helped collect data on three technical challenges of hypersonic flight: aerodynamics; aerothermal effects; and guidance, navigation and control. The SR-72’s design incorporates lessons learned from the HTV-2.

The SR-72 would be capable of reaching any point on the globe within an hour and penetrating all conceivable enemy defenses. The ability would prove game changing, perhaps more so than stealth.

Tuesday, November 5, 2013

Strategic Rail Projects - An Update


Tawang, Arunachal Pradesh
Tawang, Arunachal Pradesh. Photo Credit: Vijainder K Thakur

India is developing the following 14 Strategic railway lines as part of its efforts to strengthen the infrastructure along the LAC and LOC. The projects are located in Jammu and Kashmir, Assam, Arunachal Pradesh, Uttarakhand, Punjab and Rajasthan.

Murkongselek-Pasighat-Tezu-Parasuramkund-Rupai (Assam, Arunachal Pradesh)
Missamari-Tawang (Arunachal Pradesh)
North Lakhimpur-Along-Silapathar (Assam)
Patti-Ferozpur (Punjab)
Jodhpur-Jaisalmer (Doubling) (Rajasthan)
Pathankot-Leh (Punjab)
Tanakpur-Bageshwar (Uttrakhand)
Jammu-Akhnoor-Poonch (J&K)
Dehradun-Uttarkashi (Uttrakhand)
Rishikesh-Karanprayag-Chamoli (Uttrakhand)
Anupgarh-Chattargarh-Motigarh-Bikaner (Rajasthan)
Tanakpur-Jauljibi (Uttrakhand)
Jodhpur-Agolai-Shergarh-Phalsund (Rajasthan)
Srinagar-Kargil-Leh (J & K)

Graphic Courtesy: Business Standard
The 378-km long Missamari-Tawang link is one of the most strategically important projects, which is expected to cost about Rs 19, 108 crore.

Out of the 14 planned railway lines, survey has been completed for 12, PTI reported on October 27, 2013.

Cost of four lines is yet to be estimated.

Work has started on two lines: the 160-km Hrishikesh-Karnaprayag-Chamoli line and the 30-km stretch of the Murkongselek-Pasighat segment (North Frontier Railways).

Rail Vikas Nigam Limited (RVNL) has submitted details of the Hrishikesh-Karnaprayag-Chamoli railway line alignment to the state government and Railway Board for approval and is awaiting environmental clearances for the initial 12-km stretch of the track.


Graphic Courtesy Business Standard

The 30 km Murkongselek-Pasighat segment is over flat terrain; the challenge lies ahead from Tezu to Rupaithe.

The four lines planned in Uttarakhand traverse difficult terrain.

Some of these lines were planned a hundred years ago. Projects are stalled by lack of funds and the absence of a cost-sharing agreement between the various ministries involved.
Reference: Strategic Rail Projects

Friday, November 1, 2013

Canard by Bharat Karnad?


Rafale at Aero India 2013



The Op-Ed - Stop wasteful military deals - The New Indian Express - by the venerable Bharat Karnad, painting the IAF in bad light, is riddled with so many grievous errors that I am compelled to respond. 

The following are some examples of statements by Karnad that need to be corrected.

"[IAF] bought PC-7s for $1.5 billion, an amount the Chinese Air Force spent to secure the entire production line from Russia of the latest, most advanced, Tu-22M3M strategic bomber!"

China has an industrial base to support production of Tu-22M3M. India doesn't. China perceives a need for a supersonic bomber to counter the US. India doesn't.

"This Pilatus purchase, moreover, was approved by defence minister A K Antony at a time when Hindustan Aeronautics Limited (HAL), Bangalore, had its new HJT-44 turboprop trainer up and ready. Brazening out such mindless splurges, Air Chief Marshal N A K Browne advised closure of the HJT-44 line to enable purchase of more PC-7s!"

The HJT-44 exists as a mock-up only - It is not "up and ready." The IAF was compelled to acquire the Pilatus because HAL couldn't make the HPT-32 safe to fly even decades after the IAF accepted it. As a Flying Instructor at the Air Force Academy, I have had the misfortune of attending funerals of Army and Air Force officers and IAF cadets killed as a result of HPT-32 accidents. (I saw as many wailing wives and mothers at funerals during my short stay at the Academy, than I did during my entire career as a fighter pilot.)

HAL is struggling with the development of the HJT-36, Sitara, which the IAF is in desperate need of. My guess is that the IAF would eventually be forced to buy an intermediate trainer from abroad because HAL will fail to deliver. With all due respect to Bharat Karnad, I think his attack on the IAF Chief is quixotic and very unfortunate. (He got paid for the article in which he took a wild potshot at the IAF Chief.)

"IAF has at most tolerated licence-manufactured foreign fighter planes but sought stubbornly to kill off indigenous combat aircraft projects. In the past, it buried the Marut Mk-II, the low-level strike variant designed in the 1970s by the highly talented Dr Raj Mahindra, who won his spurs under Kurt Tank, designer of the Focke-Wulfe fighter-bombers for the Nazi Luftwaffe and of the original HF-24 at HAL, buying the Jaguar from the UK instead. History repeats itself."

The Marut Mk-II was a dream, not a project. The HF-24 Marut powered by two Orpheus 703 engines, which I flew extensively, was an underpowered fighter incapable of holding its own in a dogfight against any Pakistani fighter. The IAF inducted the fighter into service in the belief that a more suitable engine for the aircraft would be eventually procured. When India failed in its attempts to get a better engine, the IAF heartily supported an HAL project to develop a reheated version of the Orpheus 703. Alas! The reheated version of the 703 fell way short of the ASR thrust goals. The project ended when a senior IAF test pilot on deputation to HAL was killed in an accident while testing the reheated engine.

"French and Israeli pilots who have unofficially flown the Tejas Light Combat Aircraft (LCA) have gone gaga over its flying attributes."

IAF test pilots have heartily endorsed the flying characteristics of the Tejas. Why talk about French and Israeli pilots, unless the intent is to falsely project the IAF as being against Tejas? The truth is that the IAF, through the MOD, has been pressurizing ADA and HAL to deliver on the promise of the Tejas. The IAF desperately needs the aircraft as MiG-21 replacement. No one in the IAF doubts the fine capabilities of Tejas. What the IAF cannot do is retire its MiG-21 fleet, put its frontline pilots currently flying the MiG-21s on deskjobs, and wait for HAL to deliver the Tejas on its own sweet schedule. How difficult is that to understand?

"The larger, heavier, longer range Mark-II variant of the near all-composite Tejas, in fact, fills the bill of “MMRCA”. An LCA version of Tejas has already been flown weighted down with ballast to mimic the Mk-II plan-form. The fact that the Mk-II variant was coming along well, besides, was known to the IAF-MoD (ministry of defense) combo. So, how come the tender for MMRCA was not terminated midway?"

The LCA Mk-2 is a light weight fighter that does not meet MMRCA ASRs. Mk-2 is the light weight fighter that the IAF wanted to begin with when it backed the LCA project, not the Tejas. The IAF is inducting the Tejas after granting many critical concessions on the ASRs to encourage indigenous design and development of fighter aircraft.

"But the LCA has been prevented from entering squadron service after it obtained the Initial Operational Clearance (IOC)-1 last year, because of their insistence that IOC-2 and subsequent clearances be done by HAL rather than permitting the clearances to be obtained by the designated Tejas squadron, flying the aircraft, at the Sulur base in Tamil Nadu. The latter procedure will allow our fighter pilots to test the plane’s flight envelope and performance, and to provide feedback to designers — normal practice of advanced air forces inducting a new locally-produced aircraft."

The Tejas is in service with the IAF. It's being extensively flown by the ASTE, an IAF establishment. IAF squadron pilots are not trained to conduct IOC; they are trained for war fighting. ASTE is the IAF organization earmarked to assist HAL with IOC and FOC on an aircraft.

Finally, MMRCA is  Medium Multi Role Combat Aircraft not "multi-role, medium range combat aircraft" as Karnad states in his op-ed.

While Mr Bharat Karnad is entitled to his opinion, it would be nice if the opinion is based on facts.

Saturday, October 26, 2013

OFB Developed Bofors 155 mm / 45 caliber Gun Bursts During Trials


A Bofors 155mm/39 caliber gun in action during Kargil Ops.
On October 25, 2013 Defense News reported that the barrel of a prototype Bofors 155 mm / 45 caliber howitzer burst during summer trials. A MOD source told the website that the failure was investigated by an internal committee, which concluded that neither the barrel nor its Indian-made ammunition was at fault.

Ordnance Factory Board (OFB) has developed the 155mm / 45 caliber gun by upgrading the 155 mm / 39 caliber Bofors gun inducted into the Army in late 1980s. Using drawings supplied by Bofors as part of the TOT package, OFB lengthened the barrel of the gun (increasing caliber from 39 to 45), so that it could achieve a range of 40 km. In additions, OFB improved the mechanical and electronic suites of the gun.

The Defense Acquisition Council in October 2011 asked Ordnance Factory Board (OFB) to manufacture two prototypes of upgraded 155mm/45 calibre Howitzer Gun and offer them for trials by Jun 2013. [via PIB]

On March 7, 2013, the TOI reported that the MOD has placed a letter of intent with the OFB for 114 howitzers.

Following the setback, which has halted the trial process, BAE Systems, which acquired Bofor's howitzer unit, has reportedly offered to help OFB upgrade the gun.

Ironically, the barrel explosion followed a series of trial successes.
On April 29, 2013, the Minister of State for Defense told parliament that the OFB has carried out several internal firings of their in house developed 155mm x 45 caliber Artillery Gun and it has met the planned objectives. However, User Test Fire is yet to be carried out.

Successful Trials at PXE Balasore

On December 28, 2012, the TOI reported that field trials of the two prototype guns were successfully conducted at the Proof and Experimental Establishment (PXE) testing range in Balasore, Odisha on December 19, 20 and 23 respectively.

GM, Gun carriage factory (GCF), S P Yadav, told the newspaper that the performance of both the prototype guns had been as expected; they had successfully hit targets 38-40 kilometers away.

The trials were witnessed by Lt Gen Anjan Mukherji, DG Artillery as well as experts from DRDO.

The PXE range is equipped for accurate ballistic measurements and DRDO has compiled the data from the trials.

GCF carried out initial internal trials of the guns in May in Pokharan, which proved to be satisfactory.

Next the guns were tested at Central Proof Establishment (CPE) at Itarsi on November 30, December 5 and 6. 

At CPE, the firing was confined to the arrester butt on zero degree elevation. 

After the CPE firing the guns were subjected to a series of tests to ensure their structural integrity hadn't been compromised. It was determined that all components and assemblies had borne the firing firing stress without any damage.





Friday, October 18, 2013

India Unhappy with FGFA Research & Design Workshare

PMF / FGFA model on display at Aero India 2013. Photo Credit: Vijainder K Thakur

On October 18, 2013, The Economic Times reported that the IAF is unhappy that India, despite bankrolling 50% of the development cost of the FGFA, is being allocated just 15% of the research and development work for the aircraft by Russia.

The IAF expressed its disappointment at a CII event on energizing aerospace sector in India.

"We have a major opportunity in the FGFA program. At the moment it is not very much in favor of Indian development. We are flagging it through the Government. It should be much more focused towards indigenous development capability," IAF Deputy Chief Air Marshal S Sukumar said here.

The Raksha Mantri is expected to take up the issue during his visit to Russia starting November 15, 2013.

India and Russia are currently negotiating the Research and Development work share of the FGFA program. The negotiations are expected to take another year!

What is difficult to understand is how can India realistically expect a larger work share. The PMF / FGFA is based on the PAK-FA / T-50, an aircraft that is expected to start state acceptance trials in early 2014.

The FGFA will feature the same airframe, engines and main systems as the T-50, but differ in its avionics and weapon suite. Clearly, the residual R&D work is limited. What is it that India wants to research and develop?

Wednesday, October 2, 2013

GTRE Pushes Ahead with Kaveri as USAV Power Plant

Kaveri engine at Aero India 2011. Photo © Copyright: Vijainder K Thakur
GTRE has submitted a revised proposal to the GOI to warp development of Kaveri engine.

DRDO Director General (Aero) K. Tamilmani and Director, Gas Turbine Research Establishment (GTRE) C.P. Ramanarayanan told The Hindu in October 2013 that GTRE will resolve the five issues that came up during airborne testing of the Kaveri engine in 2011 using an IL-76 testbed at Gromov Flight Research Institute (GFRI), Russia

Next year, the tweaked engine would be fitted first on an IL-76 testbed and then a MiG-29 fighter for trials and eventual certification.

“When we do that, we will have the first indigenous engine with proven and certified performance for exploitation,” Dr. Ramanarayanan said.

GTRE had earlier planned to obtain certification using an LCA testbed. (The LCA PV-1 was built to support the Kaveri engine.)

GTRE has sought sanction from MoD for developing the "dry thrust only" versions of the Kaveri engines. The money will be utilized to build two prototypes and send them to Russia for flight testing.

Dr. Ramnarayanan had earlier told the press, “We will take 48 months from the date we get clearance from the government, for completing 50 hours of testing the Kaveri on the Tejas LCA. During the last 12 months, we will actually fly the Tejas with the Kaveri.”


The testing will now presumably be done on a MiG-29.

According to Dr. Ramanarayanan, in future India would endeavor to build aircraft around a proven engine, a model followed worldwide.

During testing at the Gramov Flight Test Center, the Kaveri had demonstrated a dry thrust of 49.2 KN against a designed 51KN. With reheat the thrust deficit was substantial; 70.4 KN against the designed 81 KN.

Due to the thrust deficit with reheat, Kaveri was dropped as a prospective LCA powerplant.

Since Kaveri's dry thrust performance comes close the design values, DRDO has taken a decision to develop Kaveri as a UCAV powerplant.

UCAVs use un-reheated engines to minimize their heat and noise signatures. Also, the thrust requirement for the USAV is more modest.

DRDO has embarked on the development of a UCAV matching the capabilities of the X-47B and nEuron. The Indian analog is called Unmanned Strike Air Vehicle (USAV).

The USAV cannot use an imported engine on account of the MTCR regime which prohibits sale to another country of technology that maybe used in a missile or unmanned vehicle exceeding 300 km in range.

Removing the reheat from the Kaveri would lighten the engine considerably.

"Since the USAV will weigh less than 10 tonnes, the Kaveri’s 50 KN will suffice. And, with the afterburner removed, we would significantly reduce the weight of the Kaveri," a top DRDO scientist told the Business Standard earlier this year.

Along the way, GTRE will need to tweak the Kaveri dry for use on low RCS aircraft. Typically, stealth aircraft powerplants use shaped intakes to prevent enemy radar from reflecting off their compressor blades. Also, the engines are designed to operate with shaped exhausts to reduce stern radar and heat signature 

In addition to the Kaveri, GTRE is co-developing a powerplant for the AMCA with a foreign vendor to be selected through open tendering.

Meanwhile, HAL is independently developing aircraft engines for use on drones, helicopters and trainer aircraft by 2018.

Details about the Kaveri project are at Kaveri Jet Engine - IDP Sentinel.
You can read more about the India USAV a Unmanned Strike Air Vehicle (USAV) / AURA UCAV

Monday, September 30, 2013

Nag ATGM: No Man Portable, Mast Mounted, Tactical Aircraft Versions Planned

Nag ATGM at Aero India 2011. Photo Credit: Vijainder K Thakur


The TOI reported on September 24, 2013 that DRDO is developing a mast mounted ground launched version of the Nag ATGM with increased range of 7 km and lock on after launch capability. The TOI report didn't specify where the mast would be mounted - presumably, on the NAMICA vehicle - but said the launch pad would be hydraulically raised to a height of 5 m to enable the missile to acquire its targets up to a distance of 7-8km.

The TOI report also said that DRDO was developing

  1. A man portable version of the missile on request from the IA
  2. An air-launched, 10-km range variant of the missile for launch from tactical interdiction aircraft like the upgraded Jaguar IS. The version would feature a nose-mounted mill metric-wave active radar seeker.

DRDO has now clarified to Thumkar that the TOI report is erroneous.

According to DRDO Director of Public Interface Ravi Kumar Gupta, while DRDO is working on continually improving the Nag missile there is just one variant of the missile currently under development - Helina.

BMD Phase 1 PDV Endo-Atmospheric Interceptor Test in Late November

AAD-05 interceptor during 7th BMD test on February 10, 2012.
DRDO plans the debut test of its new Ballistic Missile Defense (BMD) Phase 1 exo-atmospheric interceptor PDV missile in the last week of November, according to The Hindu.

During the test, the new PDV interceptor will attempt a hit-to-kill destruction of a target missile launched from a Navy ship, with interception taking place between 125-140 km altitude.

The BMD Phase 1 system is capable of engaging missiles with a range of 2,000 km. In the past, DRDO has used Prithvi missiles launched on a trajectory simulating a 2,000 km range missile as targets. For the upcoming test, DRDO will use a newly developed target missile.

The solid fueled two stage PDV missile replaces the solid and liquid fueled two stage Prithvi Air Defense (PAD) missile as the endo atmospheric interceptor in BMD Phase 1. The PAD was tested twice - against a Dhanush missile launched from INS Rajput on March 6, 2006 at an altitude of 80 km and against a Prithvi missile on November 27, 2006 at an altitude of 48 km.

DRDO has tested the BMD system a total of seven times since March 6, 2006, not counting an aborted test. The first two tests involved the PAD missile and the subsequent 5 tests, the AAD. The AAD missile was last tested on February 10, 2012.

PDV Capabilities


The PDV is capable of intercepting enemy missiles at altitudes upto 150 km. It features an innovative system to allow the missile to maneuver outside the earth's atmosphere, a dual (active radar and IR?) seeker and a gimbaled directional warhead which can rotate 360 degrees to explode towards the incoming missile in order to destroy it.

Because it is directional, the 30 kg warhead is able to generate an impact equivalent to a 150 kg omni-directional warhead.

At the time of interception, the PDV and the enemy warhead would both be travelling towards each other at 1500 m per second. One of the challenges in exo-atmospheric interception is discriminating the warhead from its separated rocket motor and possibly decoys.

The PDV missile is being developed to be the mainstay of the BMD system.

PDV Test Delays


The first trial of the missile was initially scheduled for late June or early July 2010. On February 14, 2012, DRDO Chief VK Saraswat said the missile would be tested by the end of 2012.

In May 2013, DRDO Chief VK Saraswat told The Hindu that the next test of the BMD would take place in July 2013. It would involve a PDV missile and demonstrate an interception at an altitude of 100-150 km.

BMD Phase 2

Meanwhile, DRDO is continuing to develop Phase 2 of its BMD system which will be capable of engaging missiles with range greater than than 5,000 km.

The Phase 2 system will match the capability of the THAAD or Terminal High Altitude Area Defence missiles deployed by the United States as part of its missile shield beginning this year. THAAD missiles can intercept ballistic missiles over 200 km away and track targets at ranges in excess of 1,000 km.

The Phase 2 system will require longer range radars (Detection range of 1,500 km as opposed to 600 km for Phase 1 radars), and new hypersonic interceptor missiles flying at Mach 6-7 (As opposed to Mach 4-5 for Phase 1 missiles) with agility and the capability to discriminate against ballistic missile defense counter measures.

DRDO says it has completed design of the Phase 2 interceptor missiles - AD-1 endo-atmospheric interceptor and AD-2 exo-atmospheric interceptor - and trials would be held next year.

Sunday, September 29, 2013

What Happened in Samba? Cross Border Terrorism or Pak Army Special Ops?

IMGP2061


Lt Gen HS Panag, former Northern Army Commander, Lt Gen JS Bajwa, who recently retired as DG Infantry, and Pravin Sawhney, Editor, Force magazine, share their thoughts on the brazen cross border attack from Pakistan in Samba. What is India up against? Cross Border Terrorism or Pak Army Special Ops? Proxy War or Sub Inertia Conventional War?

And our continued lack or response to such provocations - is it the Arjun Syndrome or Just Funk?

Let's first review the facts.

On September 26, three heavily armed men attacked the Hiranagar police station in Kathua district of J&K at around 6:45 AM and gunned down five police personnel. They then commandeered a truck on the national highway, shot dead the helper, and forced the driver to take them to the Army area in Samba district, where they attacked a 16 Cavalry camp in Mesar area and shot dead the second in command of the regiment, Lt. Col. Bikramjit, and two soldiers. The commanding officer of the regiment and three other soldiers were injured in the shootout.

A fierce gun battle ensued between the attackers and the army personal, which ended with all the three attackers being killed.

Following the attack, the Home Minister of India confirmed to the press that the attackers came from Pakistan. They are reported to have sneaked into the Indian territory from across the International Border (IB), which runs close to Hira Nagar police station.

The TOI announced the gunning down of the attackers with the headline - Army operation over in J&K's Samba, all three terrorists gunned down.

You may have noticed that I have not used the word terrorists to describe the three attackers from Pakistan, because I am not sure 'terrorists' is the right word to describe them.

According to Wikipedia, terrorism commonly refers to those violent acts which are intended to create fear amongst people. The Samba attack was not intended to create fear amongst Indian people, it was intended to kill Indian uniformed personnel in the border area. A job that is normally assigned to soldiers.

Terrorists are not trained by governments in clearly identifiable camps. Soldiers are. Terrorists don't attack across the international borders, soldiers do.

The Wikipedia defines a soldier is one who fights as part of an organized land-based armed force. To my mind, the three attackers fit the Wikipedia definition of a soldier.

So, were the three men who attacked Hiranagar police station and the 16 Cavalry camp in Mesar area killing 9 uniformed personnel and one civilian terrorists or soldiers?

Remember, soldiers can be part of the regular army with well laid out terms of service, or they can be irregulars with nebulous terms of service.

Was the Samba attack a terrorist attack, or a Pakistani special operation executed by Pakistani army irregulars?

The press, the politicians, even retired soldiers have all referred to the incident as a terrorist attack.

Is it possible we are referring to the three attackers as terrorists because the consequence of referring to them honestly as Pakistani irregulars on special ops would only bring shame on us because we would not be able to explain to ourselves and the world why we are not retaliating across the border from where those irregulars came?

Is Pakistan taking advantage of a weak political leadership in India - focused on its own survival and, by its own doing, bereft of sound military advice - erode Indian sovereignty in J&K.

If so, those in power need to realize that India's accommodation of increasing Pak provocations make it like the frog who dies because water temp rises to a boil slowly.

I know I share my doubts with many other concerned citizens of the country - young and old. To clear the misgivings I consulted two experts who have devoted their lives to military affairs.

  1. Lt Gen HS Panag, former Northern Army Commander, a no nonsense soldier with a sharp intellect, a hard taskmaster, and  a just leader with Teflon clean image.
  2. Lt Gen JS Bajwa, who recently retired as DG Infantry and is the author of two books on PLA, with the latest titled Modernisation of the Chinese PLA: From Massed Militia to Force Projection
  3. Pravin Sawhney, Editor, Force, India's leading defense magazine

My questions to them were

  1. What is India faced with in J&K - Cross Border Terrorism or Cross Border Special Ops?
  2. Has Pakistan upped the ante with a sub inertia conventional war in addition to its on going proxy war? (A conventional war finely calibrated to remain below a threshold that would compel a weak political leadership to react.)
  3. Is the lack of response from India the Arjun syndrome (We are family) or bureaucratic and political funk from the rotting system?

Both the experts opined that India was dealing with terroriism, not Pak special operations.

Pravin Sawhney


Pravin Sawhney said:

"I believe they were terrorists who were provided intelligence, weapons and training by the Pakistan Army.

"They would not have sent their Special Forces so deep inside Jammu because if any of them had been caught alive, it would have had serious implications. Pakistan Army is the only army in the world which has perfected the capability to fight simultaneously at two levels with regular and irregular forces. This started with the 1999 Kargil war."

It is interesting that the Force editor refers to the terrorists as being part of Pakistan's Army's irregular forces.

Lt Gen JS Bajwa


The depth and logic of General Bajwa's response was awe inspiring and enlightening. I think everyone concerned about the strife in Jammu and Kashmir needs to pontificate on it.

Explaining why he feels the three attackers were terrorists, the General said:

"There is an input received to suggest that the 'attackers' sought the location of the Army School. So that does put them in the amorphous genre of 'terrorist'. The aim of the terrorist is to target the civil unarmed population to put pressure on the Civil Govt. Targeting the Army/Police also results in hardships for the civil pop since more restrictions/arrests/searches etc are the fallout. Consequently the population sides with the 'terrorists' and make governance impossible and all sorts of international agencies pounce in and sit in judgement - unless the govt has the will to remain firm.

"The selection of a target and timing are a factor which needs constant analysis from non-stop intelligence inputs. There is a serious weakness here. Intelligence agencies keep giving general information periodically, especially on the occasion of national events such as Republic Day and Independence Day.  That's not "intelligence", that's just an alert to be on guard all over."

General Bajwa then explained why India should not be drawn into a conventional war based on provocations such as the one in Samba.

"The Armed forces being drawn into a conventional war has to translate the achievement of the political end state into achievable military objectives. The Pak Army may suffer a serious military defeat and even lose territory, but is that going to wipe out the terrorist groups? Non-State actors that they are, will bounce back reinvigorated."

As to options available to India to counter the attacks, General Bajwa says:

"Armed UAV's like the 'Predator' are one essential acquisition synergised with IW to harass them persistently.

"The country has other elements on National Power - Diplomacy! Where is the military hardware originating from? Why is that not brought out in international forums as a major flank of action? If weapons are manufactured locally target these persistently. Targeting only the end product of the 'terrorist factory' will be a never ending process."

And perhaps the most profound of General Bajwa's thoughts for restoring peace in J&K - mount a truth offensive!

"As I learned in Punjab, the tide turned against the terrorists the day people realized that these persons have only a personal agenda and any claim to an ideology or 'cause' were a facade, the information about terrorist movement and whereabouts began pouring in which altered the situation dramatically in just six months."

Lt  Gen HS Panag

Lt Gen HS Panag, lived up to his reputation with brevity that outdid a long discourse.

"Pakistani terrorists are as capable of special operations as any special forces. Also, their operations are meticulously planned by the ISI / Pak Army," he said.

"So how does it matter who the Samba attackers were?" he asks?

How Well Are Pak Terrorists Equipped?

A point that each of the three experts made is that Pak terrorists are very well equipped and trained and their operations meticulously planned.

So what exactly do the 'terrorists' carry on a cross border raid?

 Lt Gen JS Bajwa explains


"Terrorist operations are backed with a well oiled machinery running on the other side with planning and executive control. Communication nodes ensure the terrorists are in contact with their control centers throughout. These fellows are on suicide mission alright, but their operations are not limited like those of suicide bombers.

A terrorist is more-or-less armed and equipped in a standard way So it is clear that


  1. One AK-47/56/74 rifle.
  2. One filled magazine with 30 rounds 7.62mm ammunition. At times a second loaded magazine is taped with the other for quick change.
  3. 4/5 filled mags in the harness on his chest which also acts as Bullet Proof Jacket.
  4.  Four hand grenades.
  5. At times a senior cadre member carries an additional weapon in the form of a 7.62mm Chinese pistol.
  6. Mob phone.
  7. GPS.
  8. Photocopy of Pak restricted maps of the area.
  9. At times THUARIA satellite communication set.
  10. Dry fruits.
  11. Some medicines and first aid kit."

Saturday, September 28, 2013

Indian Navy's Participation in RIMPAC 2014: Another Message to China?

India Navy P-81 can be expected to participate in RIMPAC-2014
India will participate in the Rim of the Pacific (RIMPAC) 2014 naval exercise, which will be hosted by U.S. Pacific Command. The biennial exercise takes place every even numbered year.

In the past India has been invited to the exercise as an observer. Other countries invited as observers include China, Ecuador, India, Mexico, the Philippines, and Russia.

Observer nations participate in the exercise without contributing ships and have the option to become participants any time in the future. Russia switched from being an observer nation to a participant in the 2012 RIMPAC exercise.

Another first time RIMPAC 2012 participant was Philippines, which likely embraced the exercise as a message to China; the two countries are locked in a territorial dispute. India's decision to participate could also be prompted by China's aggressive posture along the LAC.

The US Navy contingent to the exercise comprises of a carrier strike group, submarines (US has only nuclear powered subs) and aircraft.

It's likely that the Indian Navy will contribute its P-8I aircraft to the exercise, besides a man of war or two. The exercise should give the IN aircraft and ships a good opportunity to tune their sensors to  Pacific water keeping in mind the likelihood of future face-offs in the area with PLAN.

Friday, September 27, 2013

Bum La Pass, Tawang, Arunachal Pradesh

The author at Bumla Pass in November 2012. Photo Credit: Vijainder K Thakur
by Vijainder K Thakur

Bum La Pass, on the Line of Actual Control (LAC) between India and China, is about three hour, but just 35 km drive from Tawang over a very rough road.

The area is under Army control; to visit it, you need to get a pass from the DC's office in Tawang, and have it  stamped  at the Brigade Major's office opposite Tawang War Memorial after 5 PM.

The road from Tawang to Bum La Pass. Photo Credit: Google Maps

The Journey

The road from Tawang to Bum La Pass starts with a steep climb upto the ridge line and then goes past some very scenic lakes.

Heart Lake, Tawang District. Photo Credit: Vijainder K Thakur.

Heart Lake: Located at 13,000 ft this heart shaped lake is on top of the first ridge line.
P.T. Tso (Lake): Located at 13,300 ft, 13 km from Tawang,  the lake has a built up pedestrian pathway going around it with five shelters to sit and enjoy the scenery. You can rent camping tents for an overnight stay. The lake is managed by the state, not the military.

 P.T. Tso (Lake): Located at 13,300 ft and 13 km from Tawang,  the lake has a built up pedestrian pathway going around it with five shelters to sit and enjoy the scenery. You can rent camping tents for an overnight stay! Photo Credit: Vijainder K Thakur.

P.T. Tso (Lake): Located at 13,300 ft and 13 km from Tawang,  the lake has a built up pedestrian pathway going around it with five shelters to sit and enjoy the scenery. You can rent camping tents for an overnight stay!
Nagu La Lake is about 4 km ahead of P.T. Tso  at 13,360 ft. Photo Credit: Vijainder K Thakur.

Unidentified Lake on the route. Photo Credit: Vijainder K Thakur

Another unidentified lake short of Bumla Pass. Photo Credit: Vijainder K Thakur

 Three kms ahead  of Nagu La is a Y-Junction with one road leading to Sangetsar Lake and the other to Bum La pass.

Klemta, 8 km short of Bum La, serves as the base camp for the army posts along the border.

Bum La Pass & It's Military Significance



Bum La pass (LatLong: 27.72122,91.822701) is at 15,200 ft. A Stop sign marks the LAC (Top photo) which is U shaped in the sector..

Bumla Pass. Photo Credit: Vijainder K Thakur

No awards for guessing the name of the  Shivling shaped peak on the left in the photo at the top. Yes, it's Shivling Peak! And it  marks the northern extent of the LAC on the left looking towards China (West). Similarly, the LAC extends north on the right (East) along a ridge line.

Tawang is the focal point of the Chinese claim on Arunachal Pradesh, yet Bum La pass is one of the most peaceful sectors along the LAC.

Around 130 km to the East of Bum La Pass along the LAC, the PLA and the Indian Army are in an eyeball to eyeball confrontation with the fingers always resting on the triggers of loaded automatics.

The Indian Army is positioned right on the LAC in this sector manning positions in terrain and weather that are treacherous.

The Chinese side of the LAC is manned by border guards, not PLA regulars. The Chinese border guards live more comfortably than Indian Army personnel, in camps that are well recessed from the LAC in less hostile terrain and linked to Tibetean heartland with metalled highways.
Though the PLA doesn't man the LAC, but monitors it continuously. A PLA radar and electronic monitoring post enclosed in a white radome is visible slightly to the right of my shoulder.

A Chinese radar and electronics eves dropping unit across the LAC at Bum La pass. Photo Copyright ©: Vijainder K Thakur

The Indian Army maintains vigil against intrusions through optical sensors.

A heap of stones on the Bum La pass crossing  symbolizes Indian - Chinese friendship and visitors to the LAC add a stone to the heap in symbolic support of India - China friendship.

Also there is a rock with a signboard that says - Rock of Peace, and the flags of the two nations.

India - China Friendship heap of stones and rock. Photo Copyright ©: Vijainder K Thakur
Behind the heap of stones, but not visible in the picture abov, on the Chinese side of the LAC the ground has been leveled and a small stage built for cultural performances -  by Indian Army on August 15 and the PLA on October 1-  to mark the respective independence days of the two nations.

Army personnel positioned at the Bum La Pass border check point readily brief visitors on the pass.

The Indian Army is very supportive of visitors and extends the same warmth to them as it does to the people of Arunachal Pradesh.

The people of Arunachal Pradesh admire the Indian Army and celebrate Indian Republic & Independence days with more fervor than perhaps any other state. The Army is proud of the support that it enjoys with the people of the state.

You could say the Indian Army's rapport with the people of Arunachal Prades is as much a deterrent to Chinese military adventure as the Indian Army's strength.

Indian Army - PLA Conference hall at Bum La Pass, Tawang District, Arunachal Pradesh

This is where delegations from the Indian Army and PLA meet twice a year to maintain peace on the border.

Conference and banquet hall for PLA and Indian Army brass at Bum La pass. Photo Copyright ©: Vijainder K Thakur

On the left is the conference hall, and on the right is the banquet area.

The Chinese side hosts Border Personnel Meetings (BPMs) in February and June, and the Indian side on August 15 and October 20.

Of the four meetings, two are formal with an agenda and the remaining two celebratory to mark the Chinese Spring Festival and India's Independence Day.

PLA personnel bring traditional Chinese hats and nuts to the conference as gifts for Indian soldiers, and covet liquor and cigarettes in return. Old Monk is the sought after liquor. The Indian Army obliges.

Return to Tawang

The weather can change dramatically and suddenly in high altitude areas like Bum La pass around afternoon. All visitors are advised to clear the area and head back to Tawang by 11 PM.

Thursday, September 26, 2013

Brahmos-M Planned Induction in 2017

Brahmos-A Mockup under the belly of a Su-30MKI at Aero India 2011. Photo Credit: Vijainder K Thakur
On September 26, 2013, Dr. Sivathanu Pillai, CEO and MD of the BrahMos Aerospace Limited, told Itar-Tass that the company is currently working on the detail design and initial configuration of a smaller variant of the Brahmos which will be called BrahMos-M; development of the missile is yet to start.

According to Dr. Pillai, since the project "is in its initial stage, it is difficult to tell when the rocket may be phased into service."

"Nevertheless, we expect that it will be adopted in the range of 2017," Dr. Pillai added.

Dr. Pillai first announced the new Brahmos version in New Delhi on March 12, 2011.

Tass reported on February 20, 2013 that the new missile would be 6 m in length and weigh 1.5 tons. It's range would be the same as Brahmos - 290 km.

The new missile would be capable of launch from standard sized submarine torpedo tube, like the submarine launched version of the Exocet missile to be fitted on Type 75 Scorpene submarines currently under production at Mazagaon Docks in Mumbai.

The smaller size and lighter weight of the Brahmos-M will also make it suitable for carriage by smaller aircraft, such as the Indian Navy's MiG-29K and the under-development FGFA.

The Su-30 MKI Super 30 variant, which is the only IAF aircraft capable of carrying the underdevelopment Brahmos-A ALCM, will be able to carry three Brahmos-M missiles instead of a one Brahmos-A.

New Ramjet Engine

Brahmos-3 will be an altogether new missile that will use technologies developed for Brahmos.

Since Brahmos-M needs to be considerably smaller, it will require a completely new, smaller sized ramjet engine.

Brahmos Aerospace has already started work on the new engine, which will be developed in Russia. (Brahmos engines continue to be manufactured in Russia, though eventually manufacture will shift to India.)

Pilatus PC-7 MkII Training at Air Force Academy Ahead of Schedule

Pilatus PC-Mk-II at Aero India 2013. Photo Credit: Vijainder K Thakur

The first Pilots' course to be trained on the Pilatus PC-7 MkII commenced at the Air Force Academy at Dundigal, Hyderabad on July 8, 2013 with 14 PC-7 Mk IIs. Additional aircraft are being flown in every month under the accelerated delivery schedule.

The course is ahead of schedule, with the fleet, which now comprises 18 aircraft, having logged 3000 flight hours and nearly 5600 landings by the end of August.

Usually, because of the monsoons, the course that starts in July is behind schedule during the initial 2-3 months.

All 75 aircraft expected to be delivered by mid-2015.

Since the grounding of the HPT-32 following a crash on July 28, 2009, basic flying training was being imparted using the jet engined Kiran Mk-1 basic trainers. Pilatus PC-7 MkII is powered by a turboprop engine.

The course started with more than 80 cadets, only some of whom are being trained using the Pilatus PC-7.

The Pilatus was formally inducted into the IAF on May 31, 2013, at a ceremony at the Air Force Academy (AFA) at Dundigal, Hyderabad  by the Raksha Rajya Mantri.

The first batch of PC-7 Mk II arrived at the Academy in February 2013 as a part of accelerated induction plan.

By the end of 2014, all elementary flying training will be done on the PC-7 Mk-II and Kiran aircraft would be used exclusively for Stage II training of cadets.

For additional details on the IAF's Pilatus acquisition please visit the link below.

Pilatus PC-7 Mk II Basic Trainer for IAF - IDP Sentinel

Wednesday, September 25, 2013

The Brahmos Saga: Co-production, License Production, Assembly - Same to Same!

ALCM variant of Brahmos (scale model) displayed at DefExpo 2012. Photo Credit: Vijainder K Thakur
In a recent blog post, I had lamented that the much hyped co-development of Brahmos was nothing more than a new spin on  the 50 year old license manufacture model that just hadn't worked for India. The co-production spin makes buying weapons from abroad more palatable to Indian citizens and lawmakers, but results in very little or no transfer of technology.

Statements made Brahmos Aerospace CMD A Sivthanu Pillai at NAMEXPO in Kochi on September 24, 2013, reiterate my point.

Claiming that the Indo-Russian joint venture Brahmos Aerospace Ltd. will roll out a fully indigenous BrahMos in three years, he told reporters:

"We currently use fully indigenous steel for the missile. Now we are trying to undertake the integration of parts also at BrahMos.

"Efforts to make the missile engine at BrahMos will also be realized in three years. However, the explosive components of the missiles will be sourced from outside as we cannot handle explosives in our unit."

Nine years after Brahmos was first tested in India in late 2004, the country has still not imbibed the technology to locally manufacture the missile in India!

The Brahmos missile is currently being assembled at the Brahmos Integration Complex (BIC) in Hyderabad. The BIC integrates components sourced from various manufacturers in Russia and India.

The missile is not being used by Russian armed forces and there are no manufacturing facilities in Russia.

The ramjet engine of the missile is currently being produced at a plant in the Orenburg province of Russia.

Brahmos Aerospace is setting up a new plant to  produce Brahmos engines at the Brahmos Aerospace Thiruvananthapuram Limited (BATL) complex in Kerala, India.

A new plant is needed because soon Brahmos production volumes are expected to exceed the manufacturing capabilities of the Orenburg plant.

Other critical components of the missile are also being made in Russia. Its seeker, for example, and the warhead as acknowledged by Pillai.

Going by BrahMos Aerospace's past record, its unlikely India the joint venture will be producting the ramjet engine within the country in three years, even using a lot of imported components.

Meanwhile, the Navy and the IAF are already clamoring for a downsized version of the missile that can be launched from submarine torpedo tubes and medium category fighter aircraft. Brahmos Aerospace says its working on a such a version - Brahmos 3 - but little progress has been made.

I am skeptical there will be a Brahmos 3 in the next 10 years. As to the hypersonic Brahmos 2, I doubt it will be a reality in the next 15 years. The truth is Russia is planning to develop a hypersonic cruise missile with Indian funding, which Brahmos Aerospace will claim to have developed.

Tuesday, September 24, 2013

Advantages of MMW Seeker Over IR Seeker in an ATGM

Nag ATGM at Aero India 2011. Photo Credit: Vijainder K Thakur


DRDO plans to fit a MMW (Millimeter Wave) seeker on the Helina missile, which it successfully tested in Pokharan on Sunday, September 22, 2013.

Currently, the missile features a IR cum Image Co-relation seeker.

What's the big deal about a MMW seeker? Here is an attempt to answer the question.

1. MMW seekers are more suited to battlefield environment as they perform better in fog, mist, dust and smoke, but not rain. IR seeker capabilities get moderately degraded with weather (fog, mist) and more severely by battlefield obscurants such as dust and smoke.

2. MMW seekers are capable of doppler detection of moving targets.

3. MMW seekers allow for low drag nose shape of missile warheads.

4. MMW seekers are capable of providing range and range rate information for accurate triggering of proximity fuse.

For additional details about the Nag ATGM, please visit the link below.

IDP Sentinel - Nag / Helina ATGM


Helina Air Launched ATGM Successfully Tested

Nag ATGM at DefExpo 2006. Photo Credit: Vijainder K Thakur

The Helina ATGM was successfully tested at Pokharan range against a target 7 km away on Sunday, September 22, 2013. The missile was fired from a launch pad simulating a low flying helicopter.

The test was the second live firing of the complete Helina system.

First fight test of the 7-km range missile was carried out in early 2012. The missile successfully demonstrated its lock-on-after-launch capability during the test but failed to hit the target because of some problem with the actuators.

Helina is the helicopter launched version of the Nag missile.

Unlike the shorter range Nag, which acquires a target lock before launch, Helina features a "lock-on after launch" capability.

Helina missiles will arm the weaponized version of Dhruv ALH which will carry 8 missiles in 2 quadruple launchers mounted on either side, linked to a nose-mounted stabilized thermal sight and a laser range-finder package.

You can read more about the Helina ATGM and its land based version Nag at the link below.

http://idp.justthe80.com/missiles/anti-tank-missiles/nag-anti-tank-missile

Friday, September 20, 2013

Japan to Develop Radar Capable of Detecting Stealth Aircraft

Sukhoi T-50 Stealth Fighter


Japan has initiated a $3.7 billion project to develop a radar that can detect contemporary stealth fighters within 10 years according to a news report.

Japan estimates that China would be in a position to deploy around 200 J-20 stealth fighters by 2025. Similarly, the Russian T-50 would be extensively deployed. Japan's relations with both the countries are strained over territorial disputes.

Japan has opted for a "defensive defense" posture to counter the stealth capabilities of the two aircraft by building a radar that is capable of "vigilant monitoring."

Current radar technology can detect stealth aircraft using longer wavelengths, but cannot track them accurately for missile engagement, since the longer radar wavelength makes it difficult to pinpoint the position of the aircraft.

So what is "vigilant monitorying?" A Google translation artifact? An innocent non technical statement? Or new technology that uses smart realtime extrapolation to pinpoint a stealth target?

Thursday, September 19, 2013

EMALS, Joint Production of Javelin - Why Am I Not Thrilled with the US Offers

A Su-30MKI with a Brahmos missile under its fuselage at Aero India
The US has offered to co-produce with India an Electro Magnetic Aircraft Launch System for use on the second indigenous carrier.

US Deputy Secretary of Defense Ashton B. Carter offered EMALS technology to India during his visit to the country from September 16-18, 2013.

"The US is developing and fielding that system and is offering the technology to India which has an aircraft carrier and is considering making more," Carter told the press.

He also said that the US has offered to jointly develop a new version of the US Javelin anti-tank guided missile (ATGM). He indicated that US bureaucratic processes had been amended to allow a new version of the system to be jointly developed.

India is currently not counted amongst US military allies; consequently past defense deals involving transfer of military technology have invariably stalled.

According to Indian press reports the US has put forward a total of five weapon system co-production offers - the other three being the MH-60 Romeo multi-role helicopter, the M-45 127 mm rapid-fire naval gun and a delivery system for scatterable mines.

Alluding to the joint production by India and Russia of the Brahmos missile, Carter said, "That is exactly the same kind of thing where two industry teams are involved in the whole product life cycle; where the product is both co-produced and developed."

During his visit, Carter met the Indian National Security Advisor Shivshankar Menon, Foreign Secretary Sujatha Singh, and Defense Secretary Radha Krishna Mathur, reiterating to each that the US and India are destined to be partners on the world stage due to their shared common values and outlooks on a wide range of issues. Amongst other things they discussed steps the United States and India are taking to streamline their respective administrative processes and make bilateral defense trade more responsive and effective.

Deputy Secretary Carter visited Hindan Air Force Station, where he was briefed by IAF pilots on India's co-produced C-130J's (A lot of India specific equipment has been fitted on the aircraft) and recently procured C-17's. He also hosted a meeting of senior representatives from the U.S. and Indian defense industries focused on additional steps the United States can take to remove barriers to bilateral defense.

Perhaps there is a lot to cheer about Deputy Secretary Carter's visit to India and the generous US offers to co-develop weapon systems urgently needed by us, but I have my reservations. I am skeptical that the proposed joint manufacture will help India acquire the capability to produce its own weapon systems in the future. I doubt that is the US intent. I am skeptical that joint manufacture will lower costs. I think it will increase costs. I think the US is offering joint manufacture just as a mechanism to bypass technology transfer regimes.

The problem with developing advanced technology is you need advanced technology to develop it! Let me explain. Any new technology that we develop, cannot be very far advanced from the technology that we have already mastered. In other words, you need an advanced industrial base to make advanced weapon systems.

With our limited resources, creating an advanced industrial base for weapon manufacture is a challenge. The challenge gets insurmountable when you try to develop just about every weapon that your scientists read about in defense journals and you attempt to do so in the public sector. The correct approach is to focus on areas where you have already succeeded and become world leaders, and along the way, in a carefully calibrated manner, expand your focus.

Joint production is about joint ownership, not technology sharing. The Brahmos is a good example of what to expect from joint development, and even a better example of what not to expect.

Nine years after Brahmos was first tested in late 2004, India has still not imbibed the technology to locally manufacture its ramjet engine and radar seeker; the two critical components are still being made in Russia.

The Navy and the IAF want Brahmos to be downsized using modern materials and electronics, in order to make the missile compatible for launch from submarine torpedo tubes and medium category fighter aircraft. Currently, to launch the missile from a submarine, the boat needs to be fitted with a special section equipped with vertical launch tubes, a modification that costs millions of dollars and adversely affects the performance of the sub. Similarly, air launch of the missile requires heavy and expensive modifications to the Su-30MKI.

For a weapon system to be cost effective, it should be compatible with a wide range of launch platforms and require nothing more than a software update to the platform's weapon system. Brahmos isn't such a weapon system.

The Brahmos joint production model is really a spin on the license manufacture model that just didn't work for India. A joint production spin makes buying weapons from abroad more palatable to Indian citizens and lawmakers!

In the late 90s, India invested $240 million to complete two decades of the SS-NX-26 (Yakhont) missile's development and contributed its inertial navigation system for the Yakhont derivative Brahmos. Since then, Brahmos Aerospace hasn't done anything spectacular that suggests a technological leap. Just as HAL didn't do anything spectacular after license producing several MiG variants and Jaguars. Ironically, Indian defense scientists justify the 30 years and still counting development time for the LCA on the ground that we had to start from scratch!

It's not surprising that Brahmos Aerospace is busy plugging new platforms for the missile rather than improved version of it. Left to itself, the public sector company will not be able to manufacture a single Brahmos. That is the truth about the much touted Brahmos joint production.

DRDO Chief Dr. Avinash Chander frankly admits that license manufacture doesn't help imbibe technology and India must learn from the Chinese model of reverse engineering.

Tuesday, September 17, 2013

Agni-V's Impressive CEP Revealed


India's Agni-V has a CEP that is impressive for a missile with more than 5,000 km range and DRDO scientists are striving to reduce it further.

Agni-V second test on September 15, 2013. Photo Credit: DRDO

Following the second test of the missile on September 15, 2013, DRDO Chief Avinash Chander told the press that the current CEP of the Agni-V is 100m, and DRDO scientists hope to reduce it to 10-15m!


Let's see how the 5,000 km plus Agni-Vs CEP compares with the CEPs of other contemporary ICBMs.

The US Midgetman with a range of 11,000 km has a CEP of 90m. Russia's Bulava with a range of 10,000 km has a CEP of 200m. The CEP of Chinese ICBMs like DF-41 and DF-31A is not know.

Second Test Range 

 

It's interesting that DRDO's press release on Agni-Vs second test made no mention of the range to which the missile was tested.

The missile was targeted to its maximum range of 5,000 km during its maiden test on April 19, 2012. Following the test, DRDO scientists had said that in subsequent tests the missile's would be targeted to its 'minimum' and 'middle' ranges.

So was the second test a 'minimum' or 'middle' range test?

Additional Tests 

 

According to DRDO Chief Avinash Chander, at least three to four additional successful flight tests would be needed before the missile could be inducted into service.

Some of these tests would be conducted as user trials.

Both the tests so far have been conducted in the presence Strategic Force personnel.

Production

According to the DRDO press release, which you can peruse at the link below, the second test has paved "the way for initiation of productionisation and subsequent induction."

Canister Launch

The press release and Dr. Chander both say the next launch will be from a canister.

Please visit the link below for more information on the Agni-V project

Agni-5 LRBM