Tuesday, April 30, 2019

GRSE & CSL Ink Contracts For Supplying 8 ASW-SWCs Each To Indian Navy


The RFP for building 16 anti-submarine warfare shallow-water craft (ASW-SWC) to be built to an Indian design was issued in April 2014.
It was in December 2017 that Cochin Shipyard Ltd’s (CSL) offer (based on a warship design provided by Vik Sandvik Design India Pvt Ltd) was selected as the L-12 bid, with the L-2 bid coming from Kolkata-based Garden Reach Shipbuilders & Engineers Ltd (GRSE).
The following year, India’s Ministry of Defence decided that both CSL and GRSE would share the cake by each building eight of the ASW-CWCs.
While CSL estimates its orders for the eight vessels to be worth Rs.5,400 crore, the contract inked yesterday with GRSE is worth Rs.6,311.32 crore.
The first ASW-SWC is slated for delivery by GRSE within 42 months of contract signature, following which two vessels will be delivered every year. Scheduled project completion period is 84 months. The contract with CSL was inked on April 30.
In a Sea Acceptance Test (SAT) performed by the Israeli Navy in early February 2018, a L-3 Ocean Systems-developed Helicopter Long-Range Active Sonar (HELRAS) dipping sonar was successfully converted for operation onboard the Elbit Systems-developed Seagull unmanned surface vessel (USV), which is represented in India by GRSE. Operating a dipping sonar on-board a USV significantly increases the operational working time and substantially enhances that detection capabilities and the effectiveness of ASW. The Seagull autonomous multi-mission USV features switchable, modular mission payload suites and can perform, in addition to ASW, mine countermeasures missions (MCM), electronic warfare (EW), maritime security (MS), hydrography and other missions using the same vessel, mission-control system and data-links. The Seagull USV thus offers navies a true force-multiplier by delivering enhanced performance to naval operations, reducing risk to human life and dramatically reducing procurement and operating costs.
The 42-month period timeframe given for the rollout of the first ASW-SWC is awfully long, considering that the vessel will displace only 750 tonnes. This in turn indicates that the Indian Navy has not yet decided on the fitment of various sensors and weapon systems due to go on board the vessels—this being also the case with all warships designed to date by the Indian Navy’s Naval Design Bureau.
This consequently has led to only 33% of a warship’s superstructure being floated at launch-time (usually within  a three-year period), while the rest of the superstructure takes more than five years to be completed, thereby leading to prohibitive cost-overruns and highly visible compromises in build-quality. For this, the Indian Navy, and not the DPSU shipyards, is primarily to be blamed and held accountable.

Wednesday, April 10, 2019

How Modernisation of IAF’s Fleet of MRCAs Has Been Mis-Managed & Ill-Conceived Since The Mid-1990s

If anyone wants to go deep into why the Indian Air Force’s (IAF) fleet of multi-role combat aircraft (MRCA) was sub-optimally utilised on the morning of February 27, 2019 over the skies of Jammu & Kashmir, then the following details need to be taken into account.
MiG-21 Bison Upgrade Project Left Incomplete
To improve the beyond-visual-range (BVR) capability of its MiG-21bis light-MRCAs, the IAF in 1995 selected the Phazotron NIIR-developed Kopyo (Spear) multi-mode monopulse pulse-Doppler radar, which was to be fitted on to each of the 125 MiG-21bis at a cost of US$840,000 (Rs.2.89 crore) per unit. The Kopyo was to be used in both the air-defence and ground-attack role for guiding air-to-air missiles and air-to-ground precision-guided weapons. A CAG audit noticed conducted in November 2009 revealed that since its induction, the performance of the Kopyo had not been satisfactory due to various inadequacies in the air-to-ground range (AGR) mode. One of the reasons for the poor performance was the software, which was still under development/modification as of July 2009. The IAF stated in November 2010 that specialists from Phazotron NIIR were sent in November 2010 to India to load new applications software to resolve the inaccuracies in AGR mode. However, there was no improvement in the AGR mode further.
The audit also noticed from the report submitted by the IAF’s South-Western Air Command in December 2010 that missile integration checks were successfully completed only in December 2010. India’s Ministry of Defence (MoD) stated in November 2012 that AGR mode did remain inconsistent and inaccurate, but the BVR capability of an aircraft pertains to its capability to fire air-to-air missiles. The error in accuracy of AGR mode thus affected the delivery of air-to-ground weapons only and did not affect the BVR capability of the upgraded MiG-21 Bison fleet. The MoD also stated that further trials did not result in any significant inputs that could improve the AGR mode further. The MoD’s contention was in conflict with its reply on sub optimal performance of radar sub-assemblies and non-integration check of Vympel R-77/RVV-AE BVRAAMs till July 2009, which affected the MiG-21 Bison’s BVR capability during this period and expiry of life of several R-77s in December 2010.
The self-protection jammer (SPJ) is a critical electronic warfare (EW) equipment of any combat aircraft that contributes to the success of a mission. The MoD in February 1996 had procured 92 EL/L-8222 SPJ pods (82 for the IAF and 10 for the Indian Navy) from Israel Aerospace Industries’ ELTA Systems. Out of the 82 pods, 50 costing Rs.152 crore were for the MiG-21 Bisons, which were to be delivered between December 1997 and July 1999. However, these were actually delivered between August 2000 and December 2004. It was observed in February 2011 that during series upgradation, all the 125 MiG-21bis were modified for carriage of SPJ pods. However, only 50 SPJ pods were procured. A case was initiated by IAF HQ in July 2005 to procure an additional 36 SPJ pods for the MiG-21 Bisons to cater to 70% of the MiG-21 Bison fleet and the approval of the MoD’s Defence Acquisition Council (DAC) was obtained in January 2006. However, the proposal for procurement of additional SPJ pods was not processed in view of the limited residual life of the aircraft. Thus, only 43% of the MiG-21 Bison fleet was equipped with SPJ pods, leaving the remaining aircraft vulnerable to detection by hostile airborne multi-mode radars, thereby affecting the operational capability of IAF.
What also remains unexplained is why were multi-purpose SPJ pods (that can also accommodate guided-missiles and precision-guided weapons under them) available from OEMs like SaabTech of Sweden and TERMA of Denmark were never considered for procurement. Such fitments, interestingly, were available since the mid-1990s for light-MRCAs like Saab’s JAS-39 Gripen.  
As per the contract of March 1996, there was a provision for Transfer-of-Technology (ToT) for manufacture and repair/overhaul of the MiG-21 Bisons and their sub-systems by the MoD-owned Hindustan Aeronautics Ltd (HAL). However, ToT could not materialise in spite of the IAF’s efforts, as well as those of MoD and HAL. Hence, IAF HQ directed HAL in May 2003 not to pursue the ToT for manufacture of the aggregates and suggested to establish diagnostic and repair/overhaul facilities for the Kopyo radars and other sub-systems of the MiG-21 Bison on a fast-track basis by January 2008. A CAG audit observed in April 2010 that though the repair facilities for Kopyo had been established by August 2008, these facilities by March 2009 needed further instrumentation for diagnosis and testing at an additional estimated cost of Rs.4.50 crore by HAL. Further, the full complement of training on repair of LRUs of the Kopyo could not be imparted by the OEM specialists due to non-availability of sufficient population of Cat ‘D’ repairable items, since most of the repairable items had been sent to Phazotron NIIR for repairs. Hence, additional training was required to be imparted to HAL personnel by deputation from Phazotron NIIR at an estimated cost of Rs.1.80 crore.
The audit also observed by April 2010 that repair and overhaul facilities for the Kopyo  set up by HAL strictly fell under the category of second-line repair, which was also being established as intermediate-level facilities in all the MiG-21 Bison operating squadrons,  and full-fledged depot-level facilities had not been set up by HAL. In April 2010, IAF HQ stated that setting up of depot-level maintenance/repair/overhaul (MRO) facilities had not been considered economically viable since the present facilities were being used only for the MiG-21 Bisons, and the same would not be useful after withdrawal of these aircraft from service. The calendar life of the MiG-21 Bisons had been extended by March 2010 to up to 40 years. Due to non-availability of complete MRO facilities, 297 LRUs of the MiG-21 Bisons and 564 LRUs of the MiG-21bis were offloaded to the Russian OEMs for repair/overhaul during the period from April 2007 to November 2009, against a long=term repair agreement (LTRA) concluded in April 2007 by HAL with the Russian OEMs involving a total repair cost of US$976,593.52 (Rs.4.33 crore). The MoD stated in November 2012 that efforts made to set up MRO facilities for components of the Kopyo MMR had not been successful and instead of setting up full MRO facilities, only diagnostic and repair facilities were proposed for HAL. The MoD further stated (November 2012 and March 2014) that in the absence of MRO facilities, all LRUs and components had to be sent to various Russian OEMs for repairs.
MiG-29UPG Upgrade Project Left Incomplete
In March 2008, IAF HQ inked a contract with Russia’s RAC-MiG for upgradation and life-extension of 63 MiG-29B-12 air superiority combat aircraft. The contract was to be carried out in two stages i.e. (a) design and development (D & D) work in two years (2008-2010) on six aircraft in Russia and (b) series-upgrade of the remaining 57 aircraft in India (2010-2014). All of these were to be fitted with the D-29 EW suite, each of which comprises a Unified Receiver Exciter Processor (UREP) that encompasses a digital radar warning receiver (RWR), electronic support measures (ESM) and electronic countermeasures (ECM) elements, along with the ELT-568 self-protection jammer transceivers imported from Italy-based Elettronica.
Based on ASORs prepared by IAF HQ in October 2006 for an integrated EW suite for fitment on the IAF’s fleet of MiG-29B-12s, the DRDO’s Bengaluru-based Defence Avionics Research Establishment (DARE) proposed in October 2007 the joint development of a state-of-art EW suite (D-29) with Elisra of Israel. In March 2010 the MoD sanctioned this project to DARE under Mission Mode (MM) for design and development of the D-29 at a cost of Rs.168.85 crore with a PDC of 33 months (December 2012). Accordingly, DARE in April 2010 signed a tripartite agreement with Israel’s Ministry of Defence and Elisra at a cost of US$26 million (Rs.115.57 crore) with a PDC of 28 months (by August 2012).
Meanwhile, based on another MoD sanction in March 2009, DARE signed a contract with RAC-MiG for the structural modification of six MiG-29B-12s (which were already in RAC-MiG’s possession for upgradation) for fitment of the proposed D-29 suite at a total cost of US$14.25 million (Rs.74.10 crore) with a PDC of 20 months (November 2010). During structural modifications, RAC-MiG encountered issues related to positioning and installation of the D-29’s LRUs, for which DARE in June 2011 suggested certain additional structural modifications on the six MiG-29 airframes.
However, three MiG-29UPGs after upgradation were delivered in December 2012 to the IAF by RAC-MiG (without the DARE-specified additional modifications) for facilitating the training of IAF pilots on the upgraded aircraft. The D-29 was fully developed by DARE in March 2013 but it could not be evaluated on the first three MiG-29UPGs received in India without the additional modifications, which was necessary to carry out testing of the D-29 suite. The remaining three aircraft, after upgradation and structural modifications (including additional modification) for fitment of the D-29 suite were received in India only in December 2013 due to delays by RAC-MiG.
Meanwhile, based on another MoD sanction in March 2009, DARE signed a contract with RAC-MiG for the structural modification of six MiG-29B-12s (which were already in RAC-MiG’s possession for upgradation) for fitment of the proposed D-29 suite at a total cost of US$14.25 million (Rs.74.10 crore) with a PDC of 20 months (November 2010). During structural modifications, RAC-MiG encountered issues related to positioning and installation of the D-29’s LRUs, for which DARE in June 2011 suggested certain additional structural modifications on the six MiG-29 airframes. However, three MiG-29UPGs after upgradation were delivered in December 2012 to the IAF by RAC-MiG (without the DARE-specified additional modifications) for facilitating the training of IAF pilots on the upgraded aircraft.
The D-29 was fully developed by DARE in March 2013 but it could not be evaluated on the first three MiG-29UPGs received in India without the additional modifications, which was necessary to carry out testing of the D-29 suite. The remaining three aircraft, after upgradation and structural modifications (including additional modification) for fitment of the D-29 suite were received in India only in December 2013 due to delays by RAC-MiG. The evaluation of the D-29 was further held up till October 2014 since the IAF used the upgraded MiG-29UPGs for testing various other mission-specific systems that were fitted by RAC-MiG for upgrading the aircraft. Thus, there was lack of synchronisation of upgradation with structural modifications (including additional modification) of the IAF’s fleet of MiG-29B-12s and development of the D-29 suite. And most importantly, no attempt was made to install any Missile Approach Warning System (MAWS) suites on the MiG-29UPGs, despite the IAF’s show of deep interest in such fitments by as early as 2006. By March 2015, DARE had spent Rs.199.82 crore on the development of the D-29 suite and structural modifications of the MiG-29B-12s. 
How DRDO’s DARE Totally Screwed Up ‘Desi’ MAWS R & D Effort for Super Su-30MKI
MAWS suite installation is essential for all combat and combat-support platforms to warn pilots of incoming guided-missile attacks. The MoD’s DAC in September 2004 accorded clearance for installation of MAWS in an 100 aircraft (both fixed-wing and rotary-wing). Hence, DARE in January 2005 proposed to IAF HQ a project to design and develop dual-colour (DC) infra-red/ultra-violet MAWS, jointly with the Israel’s Ministry of Defence and Elisra. In July 2006 IAF HQ accepted the proposal and in March 2008 agreed to install DC-MAWS on all its Su-30MKI Heavy-MRCAs and projected an initial requirement of 50 DC-MAWS suites. In November 2008, the MoD accorded financial sanction for the development and integration of DC-MAWS on Su-30MKIs by DARE at a total cost of Rs.193 crore (including a foreign exchange component of Rs. 172 crore), with a PDC of 55 months (June 2013) under MM category. On July 17, 2006, Cassidian, the defence and security division of European EADS and the Indian This MoD move came despite the DARE signing a Memorandum of Understanding (MoU) with Cassidian of Germany on the joint development of an initial 36 MAWS suites for both fixed-wing and rotary-winged aircraft of the IAF and Indian Army Aviation Corps that made use of IR/UV sensors of the MILDS AN/AAR-60, with a planned initial operational capability for 2007. The agreement also included the co-production of these suites by the MoD-owned Bharat Electronics Ltd (BEL).
In December 2008, DARE signed a tripartite US$37 million (Rs.148 crore) contract with Israel’s MoD and Elisra (now owned by Elbit Systems) for the joint development of DC-MAWS suite with a projected PDC of 48 months (December 2012). The scope of contract inter-alia included delivery of six infra-red sensors for one MAWS suite. HAL was selected by both the IAF and DARE as the nodal agency for structural modification of Su-30MKI airframes for integration of the MAWS suite. Subsequently, DARE found the infra-red sensors (that make up the PAWS suite) submitted by Elisra to be heavier and bigger in dimension (24cm in height and 4kg in weight) and hence, in May 2009 informed Elisra that the sensors might not be accepted for fitment on the Su-30MKIs as it would cause serious restriction on their flight envelopes. IAF HQ too expressed the same view in March 2010.
However, Elisra in June 2010 expressed its inability to make any significant weight reduction. Installation of six infra-red sensors on a Su-30MKI was not cleared in December 2012 by an Expert Committee (EC) at locations specified by DARE, as it would involve cutting the aircraft’s internal structure and the destruction of internal thermal masking coatings. Subsequently, the EC in January 2013 cleared the installation of only four infra-red sensors with a limitation of only 15-degree angle-of-attack (as against the Su-30MKI’s capability of 90 degrees). In February 2013, DARE approached the Su-30MKI’s OEM (OKB Sukhoi and IRKUT Corp) for expert review and clearance of the proposal for aircraft modification to integrate DC-MAWS sensors. In May 2013 the OEM clarified that the integration of DC MAWS sensors will significantly worsen the Su-30MKI’s flight performance since the DARE-recommended installation locations were highly sub-optimal.
The project cost was subsequently enhanced by December 2011 to Rs.228.80 crore due to exchange rate variation (ERV), and was further enhanced by July 2013 to Rs.273.80 crore. The MoD also extended in July 2013 the PDC of the project by 24 months (up to June 2015). A CAG audit in October 2014 observed that though increase in the weight of the DC-sensors was a cause of concern to IAF HQ as well as DARE, the sensors (four for each aircraft, instead of the originally envisaged six) were accepted with their present weights and with this, the possibility of adverse effects on the Su-30MKI’s flight envelope remained.
In response to audit observations regarding delays in the development of the DC-MAWS suite and its operational impact, DARE in January 2015 agreed that the performance parameters of the DC-MAWS on Su-30MKIs would be limited. It further added that DC-MAWS requirement on Su-30MKIs was not originally envisaged by the IAF and hence DARE executed it as only a technology demonstration (TD) project, instead of MM project and the project was wrongly categorised as MM! Subsequently, DARE relocated the installation of infra-red sensors on the Su-30MKI to the satisfaction of IAF HQ and the EC, which concurred in February 2015 that the installation of all six sensors was imperative.
Between March and April 2015, Elisra delivered all the six sensors only after the completion of factory acceptance tests (FAT). The flight evaluation of DC-MAWS was also carried out between March and April 2015 on an Elisra-owned Cheyenne airborne testbed. An amount of Rs.194.16 crore had been incurred on the project by March 2015. IAF HQ stated in April 2015 that flight-trials of DC-MAWS on a Su-30MKI were expected to commence in December 2015. The CAG audit also observed in June 2015 that in order to meet the latest PDC (June 2015) of the project, DARE, after development and testing of the DC-MAWS suite on an airborne testbed, closed the project claiming it successful. In order to prove the developed DC-MAWS suite on a Su-30MKI, DARE had proposed in June 2015 to take up a separate project. DARE further stated that the delay in development was due to time taken (from February 2012 to February 2015) by IAF HQ to assess the impact on aerodynamics of the Su-30MKI.
In response to the Draft Report of April 2015, the DRDO reiterated in June 2015 the views of DARE that DC-MAWS project was taken up as a TD effort and suggested to exclude the project from its draft report. The replies may be seen in light of the fact that IAF HQ had clearly projected back in March 2008 the requirement of the DC-MAWS suite for Su-30MKIs and accordingly, the project was sanctioned under MM category. Also, neither the DRDO HQ nor DARE took any initiative during the development phase to obtain an amendment to transition from MM to TD project. Further, flight evaluations of the developed DC-MAWS suite was carried out on a Cheyenne airborne testbed and as such, the success or otherwise of DC-MAWS with oversized sensors, would be known only after flight evaluation on modified Su-30MKIs, for which a separate sanction was awaited. Till then, the IAF’s Su-30MKI fleet would have to operate without DC-MAWS capability.
In 2016, DARE once again succeeded in resuscitating the DC-MAWS project by proposing to install four DC-sensors to the fore and aft of each of the two Interface Beam Assemblies (one under each outboard wing pylon), with the remaining two sensors being mounted on the topside and belly of the Su-30MKI airframe. However, such a configuration too has not yet been approved by OKB Sukhoi, which instead has cleared the MILDS-A installation configuration that had been proposed by the industrial partnership of Hensoldt (which bought over Cassidian), BEL and Alpha Technologies back in 2016 itself!
As a consequence of the above, DARE has developed a MAWS suite installation package that does not have the support of OKB Sukhoi and will therefore be regarded as an unauthorised and non-certified fitment, which in turn will lead to both OKB Sukhoi and IRKUT Corp withdrawing their airworthiness certifications for all such modified Su-30MKIs. Total product liability, therefore, will rest squarely on the shoulders of DARE and HAL, with devastating consequences for the IAF and its entire Su-30MKI fleet.
Instead, what the IAF should have done way back in the previous decade was to go for the very same certified MAWS fitment configuration that was specified by OKB Sukhoi for the 18 Su-30MKMs of Malaysia that were delivered between 2007 and 2009. This would then have become a win-win solution for all the involved parties (Russian and Indian) and could well have generated similar solutions for the IAF’s upgraded MiG-29UPGs. Instead, the clearly evident criminal negligence displayed by the MoD, DRDO HQ  and DARE since the previous decade have only ensured that the IAF’s MiG-29UPG and Su-30MKI fleets remain devoid of DC-MAWS fitments till this day!
How/Why DARE-Developed UEWS For Tejas Mk.1/Mk1A LCA Was Rejected
It was IAF HQ through its letter No.AHQ/S96056/6/7/ASR dated March 19, 1997 that had specified that the DRDO-developed Light Combat Aircraft (LCA) should be capable of carrying an electronic countermeasures (ECM) suite included internally-mounted SPJ, RWR and a countermeasures dispensing system (CMDS). However, in December 24, 2009 in another letter the IAF HQ stated that an internal SPJ was not part of the specified FOC-standard for the Tejas Mk.1 LCA (because the SPJ consumed more power and required lot of internal volume that were not available on the Tejas Mk.1) and therefore it ought to be on-board the Tejas LCA-AF Mk.2. In addition, provision was to be made for future upgrades.
It needs to be noted here that when it comes to developing customised products like MMR and EW suite, one first has to develop the MMR and only after that the EW suite because both the MMR and EW suite (especially the SPJ) do not work together. SPJs can work only when the MMR does not operate—as dictated by the absolute laws of physics. However, with an SPJ fitment, the MMR works continuously just fine with an optimised radome. In case of the Tejas Mk.1’s MMR (comprising an ELTA Systems-supplied programmable signals processor and transmitter/receiver/exciter along with an LRDE-developed mechanically scanning antenna built by ECIL) that initially used a domestically-developed radome, airborne target detection range was 60km, but this was increased to 70km when a Cobham-supplied radome was used.
In case of the Tejas Mk.1, due to the delayed development of the MMR by LRDE, the SPJ’s development too had to be delayed by DARE and hence the latter’s flight-tests  on-board the LCA  PV-1 (which first flew on November 2003) was initially expected to start in early December 2013 (after it was installed in October the same year). But the Unified Electronic Warfare System-equipped PV-1 (inclusive of the SPJ) ended up making its maiden-flight only on January 10, 2015. The SPJ subsequently demonstrated its ability to simultaneously jam five hostile emitters. Despite this, the UEWS had consumed far more internal volume than was available on the Tejas Mk.1 and hence it was decided not to install it as standard-fit on the 40 Tejas Mk.1s on order for the IAF.
The UEWS comprises a Unified Receiver Exciter Processor (UREP) with advanced digital receiver/digital radio frequency memory (DRFM) microwave power module-base based transmitters. The RF signals received via the receiving antennae are amplified by front-end amplifiers and fed to an advanced channelised receiver in the central processor unit. The receiver then measures all the RF signal parameters such as PRF, PRI, PW, direction etc, for building pulse descriptors that are then fed to the central processor unit. This then extracts the threats according to priority and level of lethality and provides the situation awareness to the pilot via a multi-function AMLCD. Upon detection of a lethal threat, the central processor unit then activates the jammer, selecting the appropriate EW technique for each threat. The jammer is capable of responding simultaneously to five different threats by implementing power management techniques.
In December 2018 Elisra was selected for implementing a Rs.178 crore contract for developing the UEWS suite for the projected Tejas Mk.1A after being selected by HAL as the winning contender. Its developmental cost worked out to be Rs.177.43 crore, inclusive of three prototypes and related support equipment. HAL selected Elisra’s UEWS offer over the DRDO-developed UEWS for the Tejas Mk.1 and the D-29 suite (developed by DARE for the MiG-29UPG) since installation of either of the latter two would have involved significant redesign of the Tejas Mk.1A’s airframe. And neither was BEL able to respond to HAL’s request for examining the prospects for miniaturising either the Tejas Mk.1’s UEWS or the D-29.
However, Israel’s Ministry of Defence prevented Elisra from developing the UEWS suite for the Tejas Mk.1A, and instead suggested to both HAL and the IAF that the EL/L-8222 SPJ pod be selected and ordered. And this is exactly what happened subsequently.
The reason given was that since the Tejas Mk.1A will be using the ELTA Systems-supplied EL/M-2052 AESA-MMR, its integration with the the EL/L-8222 SPJ pod will be cheaper and risk-free since this very same package had earlier been installed and integrated for the IAF’s Jaguar IS/DARIN-3 project (both the AESA-MMR and elements of the SPJ pod were integrated with DARE-developed UEPS sub-systems for internal mounting) for this project were delivered to HAL in May 2018 and on August 10 the same year the first of 10 flight certification-related flights of the first Jaguar IS/DARIN-3 prototype had taken place).