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Aero India 2015

Making in India, for aerospace and defence

As of 2013, aerospace and defence (A&D) offsets are reported to have generated business worth $3.5 billion. While it is true that in value-terms, most of this is accounted for by a relatively small number of SMEs, it is undeniable that a whole range of Indian SMEs now have genuine exposure to global markets and standards.

The fact that ‘build to print’ type of orders are growing for Indian SMEs shows that this segment of the A&D market has now matured to fulfill stringent global aerospace standards while remaining competitive on cost.

 Given that A&D majors across the world are looking to pare costs by up to 20%, this is something that is obviously attracting the attention of many global players. Overall, although SMEs have benefited by engaging global value chains, it is now time for them to raise their capabilities to higher levels of value addition. This would enable them to penetrate deeper into the global market. As a by-product, it would also enable them to participate in a massive indigenisation push under the Make-in-India scheme.

Among today’s MSMEs, we see strong capabilities in precision CNC machining, electronics manufacturing, design of mechatronics, industrial product design, hydraulic valves and actuators, CNC sheet metal fabrication and forming, precision plastic moulding including design of moulds, software development, etc., not to mention the specialised advanced skills possessed by MSMEs already integrated into the supply chains of A&D establishments. The few Indian MSMEs doing business with global A&D companies are already certified AS9100 and are able to meet global quality and delivery standards. Indian firms in the automotive sector have established a solid international reputation for a while now. Some SMEs in India have already achieved noteworthy quality stamps by using practices like 5S, TQM, and JIT through their concurrent involvement in the automotive components industry.

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The success of such SMEs has greatly improved the overall image of Indian SMEs. This has prompted global companies to look for outsourcing to India, with the obvious advantage of lower costs.

 Now, the need is to elevate such SMEs to the A&D sector through orientation and exposure to the specialised stringent quality, procedures and standards. There are quite a few success stories involving SMEs in the A&D sector. One SME has indigenously designed and developed weapons control equipment for the Jaguar fighters of the IAF and many ground test jigs that would otherwise have been imported. A few other items indigenously developed by SMEs are Flight Data Recorder for fighter aircraft, precision hydraulic servo valves, multi-function displays (MFD),  that form part of sophisticated aircraft systems, wire harnesses, etc. In spite of these achievements, SMEs are understood to be meeting only 20% of the indigenous content in our defence equipment. This points to either their under-utilisation or that the lead integrator, be it a DPSU or a large private-sector enterprise, withholds all the high value-addition to itself.

 Tweet this: “The Make-in-India campaign adds a new dimension to the indigenisation programmes in the Indian A&D sector and increases the relevance of the SMEs manifold”.

 This opens up opportunities for SMEs to learn from global experience and applying their new-found skills in the massive opportunity for indigenisation. The strong competencies across a wide spectrum of SMEs need to be leveraged via clusters for the A&D sector. In the past decade, the odd aerospace SEZ may have been formed in one or two locations. However, these do not comprise a group of industries with domain expertise across the entire spectrum of domains required for complete design and manufacture, either of the platform or its systems. Thus, the need is to move up the value chain from one-dimensional SEZ specialising in machined and fabricated parts, to the creation of multiple holistic A&D clusters encompassing all domains, across structures and systems that include avionics, hydraulics, pneumatic and electrical domains.

These are yet to be formed. It may come as a rude shock to many that a wide variety of screws, nuts, bolts, rivets, etc. are imported from abroad even to this day, although hundreds of SMEs have the capability to meet this requirement. This fact points to a lack of holistic approach to indigenisation and self-reliance.

However, even as SMEs have come a long way from being ‘garage’ operations they need serious government support in terms of priority lending dovetailed to mitigating the risks associated with design, engineering and R&D efforts. Innovation and design capabilities, though crucial to stay in the game in the aerospace sector, might entail large expenses, relative to the size of SMEs. Timely availability of capital on favourable terms will make future SME growth prospects much brighter.

Further, there has to be greater integration of SMEs with domestic OEMs in the A&D space. This would greatly strengthen the delivery capabilities and market reach of A&D SMEs in India. Currently, two SME exchanges are being set up to facilitate easier access to capital and an ‘India Opportunities Venture Fund’ worth Rs 5, 000 crore is being created through the Small Industries Development Bank of India. While these are necessary steps in the right direction, more needs to be done if the Make-in-India push has to deliver a globally competitive Indian A&D sector.

The Original Article appeared on Financial Express

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Challenges – Design and manufacture in A&D

Design and manufacture of civilian aircraft differs significantly from that of Military aircraft in that the certification processes are completely different. Military aircraft are certified as airworthy by CEMILAC, a wing of the DRDO, whereas civil aircraft are certified by DGCA. The standards applicable for each of these categories are also vastly different since safety is of paramount importance in the case of civil aircraft that transport civilian passengers. Further, civil aircraft would need to be meet certification requirements of FAA and EASA in case these aircraft are to fly internationally. Since Indian aerospace companies have very little experience in civil certification procedures coupled with the fact that the civil aircraft manufacture is literally non-existent in India at the moment, this would be a much tougher proposition to tackle than military aircraft.

The aircraft industry needs to adopt the consortium approach rather than have individual companies going it alone.

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Aircraft design, development and certification is a highly complex, technology and capital intensive and long gestation industry that can stretch beyond 10 to 15 years or more. It is therefore, highly unlikely that the private sector would be willing to risk investments into this business all by itself. The best approach would be for the formation of a consortium of large, medium and small companies with proven expertise in various domains that can pool resources and synergise competence. Even the government-owned Hindustan Aeronautics (HAL) needs to adopt this model to create a win-win situation among its customers, vendor partners as well as itself.

The Union government will have to provide some incentives either as grants or subsidies to facilitate and nurture the growth of not just one, but a few such consortia. This would ensure that there is a competitive environment that prevents complacency or cartelization. In addition, these consortia can be rated on their successful contributions which will entitle them to more grants for future projects. This support even for a limited period of 5 or 10 years could foster the growth of clusters and consortia, beyond which they would be self-sustaining.

The original article appeared on The Times Of India.

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Bengaluru Company develops technology for IAF

Bengaluru-based aero defence equipment maker Radel Advanced Technology (RATPL) is eyeing huge opportunities in the defence sector this year and is developing a series of Indigenous technologies for the Indian Air Force (IAF).

“An Electronic Line Replaceable Unit (LRU) for the Dornier (maritime reconnaissance) aircraft is under development and has successfully undergone functional testing at Hindustan Aeronautics Ltd (HAL). It is now in the qualification testing phase”, the company’s managing director, G. Raj Narayan, told IANS.

Also, the company is awaiting integration and flight trial reports from the IAF for an electronic bomb-release controller used on fighter aircraft. “Once this is completed, the unit will enter serial production,” Narayan said.

RATPL has increased the life span of the Jaguar fighter aircraft by indigenizing the distributor used on its rocket pod. The IndianSME  has used modern electronic systems to replace the original, which is now obsolete.

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“This unit has undergone successful certification following into serial production,” Narayan said.

The company is also working on the repair of a high voltage power supply component of the Indian Navy’s helicopters.

“The project involves reverse engineering and design of a new power supply module using current electronics technology. The project is nearing completion and the finalized unit will be delivered to the Navy in a couple of weeks,” Narayan said.

The company is certified by CEMILAC (Centre for Military Airworthiness Certification) and has executed 20 Indigenization projects for HAL and the IAF.

It has already designed, developed and supplied a number of ground rigs for testing the avionics on board the indigenous advanced light helicopter (ALH) and the Sukhoi Su-30MKI combat jet. Multiple numbers of these have been supplied to HAL and are operating across IAF bases.

“Repeat orders for these are being periodically executed by us to meet the needs of HAL, “Narayan said.

The original article appeared on Business Standard.

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Your Stamp in the Sky

Extract from an article that was published in the New Indian Express:

The Narendra Modi government recently allowed private players based in India to manufacture equipment for the Indian Air Force. In July this year, the Defence Ministry approved the construction of 56 transport aircraft by private players. This is the first time that the private sector will design and manufacture aircraft and will not be supported by the government enterprise, Hindustan Aeronautics Limited.

There has been some shift since the new government is encouraging participation of the private sector. It was not a dynamic environment before, but now we can expect some change and emergence of indigenous technology in the industries.

This has ignited interest in courses on aerospace.

Demand for the course

In India, you can do a course in Aerospace/Aeronautical Engineering. BE/ME, BTech/MTech and PhD-level courses are available in the country. Aerospace engineers are required to have both theoretical and practical knowledge. So, most of these programmes will focus on maintenance systems, production planning and control, airframe instruments and industrial management.

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“Studying the subject is very interesting as it has practical applications and is challenging compared to computer science or electronics engineering,” says Lynden Martin Gomez, an aeronautical engineering student who graduated last year from KCG College of Technology, Chennai.

Tweet this: “Students get attracted by IT companies and take up jobs there while the passionate few go into core engineering industries” 

Career scope

Aerospace engineers are paid from Rs.15,000 to Rs.50,000 a month depending on the firm and their experience. You can become a general manager, aircraft design engineer or a technician. Some companies where you can seek jobs include Indian Space Research Organisation, Defence Research and Development Organisation, Hindustan Aeronautics and National Aeronautics Labs. While there are many job roles and companies that take in such engineers, “it was hard finding a job immediately after graduation,” says Lynden.

“Very few who come to us have hands-on capabilities. They seem to have pre-conceived ideas that seem dull. Students should be encouraged to innovate and design new equipment.”

 

The original article appeared in the  NewIndianExpress

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Karnataka MSMEs to Capture 20% of the USD 400 Billion Opportunity in Electronics Manufacturing Sector by 2020

Bangalore’s Electronics City MSME cluster receives Rs 120 million from  Central and State governments to design and develop electronic products Monitoring the growing annual demand across India from the current USD 71 billion to USD 400 billion by 2020 in the Electronics Systems Design and Manufacturing (ESDM) sector, a cluster formed by Micro, Small & Medium Enterprises (MSME) from Electronics City, Bangalore is aiming to cater to at least USD 80 billion of this domestic demand over the next six years.

This newly formed cluster in Bangalore’s Electronics City has raised Rs 140 million from both central and state governments as well as its own members, to support start-ups and SMEs to design, test and develop electronic products.  The state government has sanctioned additional funds to boost the growth of the industry and address the prevailing challenges. At present, hurdles faced by the industry ranging from power and water shortage, lack of R&D and testing facilities, bad road conditions to hindrances at check posts are contributing to an unfavorable ecosystem which the state government is likely to address.

Speaking while inaugurating the ELCIA EXPO, Sri. S R Patil, Minister of IT, BT and ST, Government of Karnataka, conveyed, “MSMEs are a crucial segment in the manufacturing landscape of the state and have significantly contributed to Karnataka’s economic growth. If the ESDM sector in Karnataka is equipped to capture even 10% of the total domestic market of US$ 400 billion, it would be an achievement in itself.”

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“The Government of Karnataka has augmented the number of incentives to home-grown companies to enter into electronics manufacturing, particularly in electronics hardware, aerospace and defence sectors by leveraging the growing talent. Nevertheless, focus should certainly be on R & D, innovation, collaboration and partnerships at all levels.” he added.

With the Government of India’s strong emphasis on promoting Indigenization and opening up of the defence segment to FDI at 49%, Indian MSME segment will be playing a critical role in the entire supply chain for the Aerospace and Defence sector (A & D sector).

Echoing on the developments in the ESDM sector, G. Raj Narayan, President, ELCIA Cluster and CEO, Radel Advanced Technology Pvt. Ltd. said, “India has a vast pool of quality scientists and engineers, which is predominantly leveraged by the growing number of multinational OEMs who have set up their engineering and design centres here. Indian MSME’s in the A & D sector are now offering tremendous opportunities for such talent to develop in all fronts and in the process empower India as well.”

Electronic clusters and Industry bodies are increasing playing a vital role in setting up and sustaining an ecosystem that is critical for the electronics industry’s growth.

The original article appeared on ThisWeekBangalore.

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Bangalore-based Electronic Cluster Raises Rs 14 Crore

 A new cluster in Bangalore’s Electronic City has raised Rs 14 crore from the central and state governments to help start-ups and small enterprises design, test and develop electronic devices.

The electronic manufacturing cluster has received Rs 10 crore from the central government and Rs 2 crore each from its 25-odd member-companies and the state government.

Spread over 30,000 square feet, the common facilities will include equipment to test products for their tolerance in temperature and humidity, and will be made available to the member-companies at a discounted price.

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“The facilities will be up and running in December. We will see a much faster turnaround of products,” said Raj Narayan, president of the micro, small and medium enterprises cluster.

That is because prior to this, small enterprises had to go to government funded labs like Electronics and Radar Development Establishment (LRDE) at Defence Research & Development Organization and private institutions like Wipro and L&T to test their devices, said Narayan. “It used to be very difficult. It’s prohibitively expensive in private companies and in government ones, we used to get time slots only after a week or two,” said Narayan, who also heads Radel Advanced Technologies.

The original article appeared on EconomicTimes.