Indigenous technologies and developing new technologies

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Science and Technology hold the key to the progress and development of any nation. Technology plays a Fundamental role in wealth creation, improvement of the Quality Of Life and real economic Growth and transformation in any Society.
The role of Science and Technology in our daily life is altering the way people live, behave, and communicate with profound effects on Economic Development. Science and Technology are now the key Elements to development as the scientific revolutions reinforce economic progress, Infrastructure-2/”>INFRASTRUCTURE and improve Health and Education system
Innovation is the primary key to the technological growth and leads to better living standards. The degrees to which developing countries can emerge as economic powerhouse depends on their ability to apply insights from science and technology.
The potential of Science and Technology for growth is endless. For example, the computing is unlocking infrastructure backlogs and handling integrated supply chains which can transform economic performances by enabling accessible and affordable Services in healthcare and education. The emerging technology of Internet and cloud-based solutions has transformed human experience.

New Science, Technology and Innovation Developments In India

While it is the private sector that constitutes the engine of innovation, national policies create environments that can encourage or constrain the ability of firms to innovate.
The more innovative firms are, the more they are profitable and the more value-added they create in a nation. It is, therefore, vital for countries to put in place policies to create an effective and efficient national innovation system (NIS).
Four conditions need to be met for building an effective national innovation system.
These are

strong and competitive pressures on domestic firms;
the presence of high quality Human Capital;
well developed links between Industry, institutions and academia; and
openness and access to foreign technologies.

These determinants of an NIS indicate that innovation involves far more than science and technology. It cannot be denied, however, that a forward-looking S&T policy can be developed to foster an appropriate mix of these determinants.
Indeed, the first step towards, and the necessary pre-requisite to, any good NIS is an effective S&T policy. In recognition of this, all advanced and industrialising countries consciously foster an S&T policy.
The pressures of international competition have made both knowledge creation and exploitation vital for business success. As a result, the internationalisation of R&D has increasing relevance for strategic management of companies and the strengthening of national innovation systems.
The globalisation of R&D is establishing deep roots for several reasons.

Firstly, changing geopolitical infrastructures are creating new opportunities for synergistic R&D activities across national frontiers.
Secondly, rapidly changing technologies are no longer constrained by geographical boundaries.
Thirdly, increasing complexities of technological systems are making it imperative to generate and implement knowledge in emerging fields quickly and collaboratively.
Fourthly, the need for brainpower with an ever-increasing sophistication is being met by identifying and employing people with the appropriate skills at appropriate locations wherever they may be. International R&D strategy is thus emerging to meet these challenges.

To this end, firms in developed countries and increasingly in some developing countries are being driven to take advantage of world-wide science and technology Resources.
These factors have spurred the growth of science and technology developments in those nations, which have conducive environments.
Israel, Taiwan, Singapore, South Korea and, to a lesser extent, Ireland, have made substantial progress in upgrading their innovative capacity and, as a result, have become beneficiaries of foreign investments in science and technology ventures.
Although countries such as India, China and Malaysia, have increased investments in areas related to science, technology and innovation at modest levels, there is little doubt that some of these, especially China and India, are potential scientific powerhouses

Trends in India’s Science and Technology Policy

It has long been recognised that Investment in science and technology makes substantial contribution to economic growth in terms of higher growth rates of an economy’s total factor productivity.
In addition to direct returns, huge (positive) externalities have also been found to be associated with it.
Taking cognisance of the importance of technology’s role in development, advanced countries nurture continuing development of science and technology and most developing countries adopt R&D policies in the early phases of their development. Science and Technology policy constitutes an integral part of a nation’s overall Industrial Policy
While the former shapes the pace and direction of technology development, the latter determines the nature of demand.
Science and Technology policy of any nation is carved within the background of overall industrial policy.
If anything, S&T policy is supposed not only to give meaning to, but more importantly, to ensure achievement of the goals of industrial policy.
It is therefore the thrust and direction of industrial policy that determines the tenets of any S&T policy, although it must be said that R&D may lead to results that may also change the course of industrial policy.
Even so, S&T policy has almost always been driven by the goals of industrial development policy.
Two strands of S&T policy have existed – policies related to technology transfer from abroad through formal modes such as FDI, technology licensing and Capital Goods imports and domestic technology generation policies.

Recent developments

Some of the recent developments in the field of science and technology in India are as follows:

Mahindra and Mahindra Ltd launched its first-ever driverless tractor on developed at the Mahindra Research Valley hub in Chennai, which can be operated remotely via a tablet. The tractor is expected to be available commercially from early 2018.
Indian Space Research Organisation (ISRO) has 21 rocket launches in the pipeline, along with testing of its heaviest rocket called the Geosynchronous satellite launch vehicle (GSLV) MK-III.
India’s space business to witness tremendous growth in the next five years, on the back of technology advancement, global space business opportunity and a sharp rise in Indian Space Research Organisation’s (ISRO) satellite launch capability.
ISRO’s lunar dust mining plan focuses on generating and transporting energy to the Earth from Helium-3 rich lunar dust from the Moon, as part of its 2030 goal of meeting India’s energy needs.
The Indian Space Research Organisation (ISRO) plans to launch 2 satellites in March and April 2017, which includes the satellite meant for the benefit of the South Asian Association for Regional Cooperation (SAARC) nations. ISRO also targets launch of second lunar mission Chandrayaan-2 in first quarter of 2018.
ISRO has launched a record high of 104 satellites in one go on a single rocket from Satish Dhawan Space Centre in Sriharikota, Andhra Pradesh.

Space Research and Discovery

High-thrust cryogenic engine CE20 (ISRO, India)- To be used in heavy launch vehicle GSLV Mk-III.
Galactoseismology (India) Method to detect dwarf galaxies dominated by dark matter. Also explains ripples on outer disk of galaxy.
ASTROSAT(ISRO, India) India’s 1st dedicated multi wavelength space observatory.

In Defence and Combat Sector S&T Development

INS Astradharini	India	1^st indigenously-designed and built torpedo launch and recovery vessel.
INS Kochi	India	Indigenously built largest destroyer warship.
Akash Missile	India	Indigenously-built surface-to-air missile. Strike range of 25km and can carry warheads up to 60kg.
BrahMos Supersonic Cruise Missile	India	Successful 48th test firing of BrahMos. Has a range of 290km and a Mach 2.8 speed.
Akash Weapon System (AWS)	India	Indigenously developed and inducted into the Indian Army.

In Health and Medicine Sector S&T Development

ZikaVac

Bharat Biotech, India

World’s first vaccine for Zika Virus.

BGR-34

India

1^st Ayurvedic anti-diabetic drug.

BGR is acronym for Blood Glucose Regulator.

Artificial Liver Tissue

India

India’s 1^st artificial liver tissue using 3-D printing technology.

In Science and Technology Sector S&T Development


NBeG 47	India	First machine harvestable chickpea variety. To address labour shortage & reduce hard work.

Pruthvi Chip	Saankhya Labs, India	Chip powers a system that can use TV White Space or wasted spectrum bandwidth to beam Internet to scores of households.

Leap Second 2015	India	30^th June 2015 clocked 1 second longer as an extra second was added to the clocks world-wide at 23:59:59.
World’s first water-based computer	India-America	Synchronous computer that operates using the unique physics of moving water droplets.

In Research and Discovery Sector S&T Development

Tree frog Ghatixalus magnus	India	Discovered in the high ranges of Idukki district in the Western Ghats of Kerala.

Musa Indandamanensis	India	Sweet banana species. Bananas of this species are very sweet and are eaten by tribal people of the island.
4 new species of Fish; Puntius Nelsoni, Puntius Nigronotus, Systomus Chryseus and Systomus Rufus	India	Four new species of Fish discovered in Kerala.
Butterfly called Banded Tit	India	Tiny butterfly species discovered in forests of Changlang, Arunachal Pradesh.
Snow Leopard	India	Spotted the endangered snow leopards for the 1^st time in the North Sikkim Plateau.
New tree frog genus	India	Discovered a new genus of tree hole-breeding frogs in the forests of northeast.
Dracula Ant	India	Discovered by a group of citizen scientists in the Western Ghats region of Kerala.



New fish species named Puntius Dolichopterus	India	Discovered from a small water stream in Kayamkulam city of Kerala.

Blue whales	India	1^st time after 100 years Blue Whales were sighted off the coast of Maharashtra.
New species of fish called Pethia Striata	India	Discovered in the Kudremukh National Park, Karnataka.

New Catfish Species Glyptothorax Senapatiensis	India	New catfish species in the Chindwin river drainage in Senapati district of Manipur.

New species of Geckos, Cnemaspis Adii	India	Spotted at the ruins of the World Heritage Site of Hampi, Karnataka.
Grey Hypocolius	India	Small passerine bird species and sole member of the genus Hypocolius.
Rare Spiders Martensopoda Sanctor and Stenaelurillus Albus	India	The spiders belong to the Sparassidae and Salticidae families.
2 bloom-forming algal species, Ulva Paschima Bast and Cladophora Goensis Bast	India	Discovered off the west coast of India
Endangered forest owlet, Athene Blewitti)	India	Species belongs to the typical owls’ family, Strigidae that is on the verge of extinction.

Major developments/ achievements of Department of Science and Technology

Major developments/ achievements/ Main highlights of the activities of Department of Science and Technology (DST), Ministry of Science & Technology during the Year 2016 are as following:

National Initiative for Developing & Harnessing Innovation (NIDHI), a programme to address the complete chain of innovation ecosystem right from scouting to mentoring to scaling up innovations launched by DST. Establishment of a research park at IIT Gandhinagar has been supported at a cost of Rs.90 cr.
Science and Engineering Research Board (SERB) has initiated a new scheme viz. Visiting Advanced Joint Research (VAJRA) Faculty Scheme. The scheme envisages to associate distinguished international faculty as Adjunct/Visiting Faculty in Indian institutions for a period of 1-3 month in a year.
Overseas Doctoral Fellowship scheme aimed to impart research training of Ph.D. Scholars in Indian institutions for collaborative research abroad was launched by SERB. Fellowship would be for a period upto 12 months.
‘Technology Vision 2035’ document was released by Hon’ble Prime Minister, on 3rd January 2016 during 103rd session of Indian Science Congress, held at Mysore University, Mysuru.
Devasthal Optical Telescope, an Indo-Belgian venture, successfully established by Aryabhatta Research Institute of Observational Sciences (ARIES), Nainital was technically activated by Hon’ble Prime Minister of India, Shri Narendra Modi and Hon’ble Prime Minister of Belgium, Mr. Charles Michel, remotely from Brussels.
Surya Jyoti: Photovoltaic integrated Micro Solar Dome, is the simple innovative technology developed to meet the lighting need for people who do not have access to reliable supply of electricity. The product has been included for subsidy under Off Grid and decentralized solar application scheme of Ministry of New and RENEWABLE ENERGY. The Ministry of Rural Development has informed to all States and Union Territories to explore the possibility of adopting this innovative technology of Surya Jyoti for the houses constructed under Prime Minister Awas Yojana-Gramin.
The National Award for the successful commercialization of indigenous technology was presented to SMITA Research Lab, IIT Delhi for the commercialization of N9 Pure Silver by , the Hon’ble President of India, during the Technology Day function on 11th May 2016. Technology was jointly developed by M/s RESIL Chemicals Private Limited and ARCI, Hyderabad under Nano Mission of DST.
Deployment of a mobile RO unit: DST has supported quick deployment and demonstration of a mobile water purification unit developed by CSIR-CSMCRI for producing portable water for drinking. It was demonstrated in Latur, Marathwada region which was facing severe scarcity of drinking water during this year’s drought period.
Dielectric Barrier Discharge (DBD) based plasma system for portable water purification: A technology developed at CEERI Pilani through support by DST’s Water Technology Initiative (WTI) for Dielectric Barrier Discharge (DBD) based plasma system for disinfection has been successfully transferred for commercialization to Turners Pvt. Ltd. Jaipur.

The Water Quality Laboratory at Kohima, Nagaland: The Referral Water Laboratory, fully equipped with the in house sophisticated analytical equipments for Water Quality analysis was inaugurated by the Hon’ble Union Minister of Science and Technology Dr. Harsh Vardhan at NASTEC, Kohima, Nagaland,
Solar Energy Research Institute for India and the United States (SERIIUS): The Indo-US consortium has developed the crucial prototype test loop that demonstrate the multiscale aspects of the supercritical CO2 Brayton cycle (s-CO2) at IISc Bangalore for development of high temperature Concentrated Solar Power in the country.
BRICS STI Cooperation: To further strengthen the collaboration amongst the BRICS countries in the areas of Science, Technology and Innovation (STI), the 4th BRICS Science, Technology and Innovation Ministerial Meeting was convened on 8 October, 2016 at Jaipur.
DST and RC-UK have agreed to launch India-UK Clean Energy R&D Centre on solar energy, storage and integration with an investment of £ 5 million from each side.
Building upon the Thames-Ganga PARTNERSHIP and recognising the importance of clean and portable water, DST and RCUK have agreed to launch a new collaborative programme on Improving Water Quality and Reusing Waste Water.
DST-Intel Collaborative Research for Real-Time River Water and Air Quality Monitoring: Recognizing the importance of developing the online River Water and Air Quality Monitoring systems, DST and Intel has initiated a joint programme at a cost of Rs.33 cr on a 50:50 cost sharing basis in Public-Private Partnership (PPP) mode.
A new programme on Interdisciplinary Cyber Physical Systems (ICPS) to foster and promote R&D in this emerging field of research has been launched. A Cyber Physical System (CPS) is a mechanism controlled or monitored by computer-based algorithms, tightly integrated with internet and its users. It is an engineered system that are built from and depend upon, the seamless integration of computational algorithms and physical components
Collaboration with the Rutherford Appleton Laboratory (RAL), UK: Initiated to access its neutron facility for carrying out research in Nano Science and Technology.
DST constituted ‘Standing Committee for Promoting Women in Science’ to address a low representation of women in Science & Technology (S&T) domain. To provide opportunities to women scientists and technologists for pursuing research in basic or applied sciences, 227 projects were recommended for support. Twenty nine projects to women scientist were supported for finding out solutions to challenges/issues at the grassroots level for social benefit. To create opportunity of self EMPLOYMENT and/or also sustainable career for the women scientists, one year internship in the domain of Intellectual Property Rights (IPRs) to 111 women was provided during the year.
Technology demonstrated for cyber-digital-physical reconstruction of Hampi heritage Plans for covering 100 monuments are under formulation.
DST-STI Policy Fellowship at post-doctoral level was initiated to generate a critical mass of policy researchers.
In the context of Start-up India initiative of the Government, INSPIRE Awards scheme has been revamped to foster culture of innovation among school children of class VI to class X. The scheme has been rechristened as INSPIRE Awards-MANAK (Million Minds Augmenting National Aspiration and Knowledge). The 6th National Level Exhibition & Project Competition was organized during December 10-11, 2016 along with India International Science Festival (IISF) at CSIR-NPL, New Delhi.

Indigenous technologies are technologies that have been developed by Indigenous peoples around the world. These technologies are often based on traditional knowledge and practices, and they can be used for a variety of purposes, including hunting, gathering, farming, and building.

Indigenous technologies are often very sustainable and environmentally friendly. They can also be very efficient and effective, and they can be adapted to meet the needs of specific communities.

In recent years, there has been a growing interest in Indigenous technologies. This is due in part to the increasing recognition of the value of traditional knowledge, and in part to the need for more sustainable and environmentally friendly technologies.

There are a number of challenges to developing new Indigenous technologies. One challenge is that traditional knowledge is often not well-documented. This can make it difficult to understand how Indigenous technologies work, and it can also make it difficult to transfer this knowledge to others.

Another challenge is that Indigenous technologies are often not well-protected. This can make it difficult to prevent others from exploiting Indigenous technologies without permission.

Despite these challenges, there are a number of reasons to be optimistic about the future of Indigenous technologies. One reason is that there is a growing interest in these technologies, both from Indigenous peoples and from the wider community.

Another reason is that there is a growing body of research on Indigenous technologies. This research is helping to document traditional knowledge, and it is also helping to develop new and innovative Indigenous technologies.

Finally, there is a growing number of organizations that are working to support the development of Indigenous technologies. These organizations are providing funding, training, and other support to Indigenous peoples who are working to develop new technologies.

The future of Indigenous technologies is bright. With continued support, these technologies can play a vital role in meeting the needs of Indigenous peoples and the wider community.

Here are some examples of Indigenous technologies:

The bow and arrow is an Indigenous technology that has been used for hunting and warfare for centuries.
The canoe is an Indigenous technology that has been used for transportation and trade for centuries.
The tepee is an Indigenous technology that has been used for shelter for centuries.
The sweat lodge is an Indigenous technology that has been used for spiritual and healing purposes for centuries.

These are just a few examples of the many Indigenous technologies that have been developed over the centuries. These technologies are a testament to the ingenuity and creativity of Indigenous peoples. They are also a reminder of the importance of traditional knowledge and practices.

Indigenous technologies are not just a part of the past. They are also a part of the present and the future. Indigenous peoples are continuing to develop new technologies that are based on traditional knowledge and practices. These new technologies are helping to meet the needs of Indigenous peoples in the 21st century.

Indigenous technologies are a valuable resource for all people. They can teach us about the importance of traditional knowledge and practices. They can also teach us about the importance of sustainability and environmental protection. Indigenous technologies are a reminder that there are many different ways to live in harmony with the Earth.

What are the different types of technology?

There are many different types of technology, but some of the most common include:

Information technology (IT): This includes computers, Software, and other devices that are used to store, process, and transmit information.
Communication technology: This includes telephones, televisions, and other devices that are used to send and receive information.
Transportation technology: This includes cars, trains, and airplanes, which are used to move people and goods from one place to another.
Medical technology: This includes devices and procedures that are used to diagnose, treat, and prevent disease.
Manufacturing technology: This includes machines and tools that are used to make products.
Agricultural technology: This includes machines and tools that are used to grow crops and raise Livestock.

What are the benefits of technology?

Technology can provide many benefits, including:

Increased efficiency: Technology can help us to do things faster and more easily.
Improved communication: Technology can help us to communicate with people all over the world.
Access to information: Technology can give us access to information that we would not otherwise have.
Increased productivity: Technology can help us to be more productive in our work.
Improved health care: Technology can help us to diagnose and treat diseases more effectively.
Increased safety: Technology can help us to be safer in our homes, workplaces, and communities.

What are the risks of technology?

Technology also has some risks, including:

Addiction: Technology can be addictive, and people can spend too much time using it.
Privacy concerns: Technology can be used to collect data about us without our knowledge or Consent.
Job loss: Technology can automate tasks that are currently done by humans, leading to job loss.
Social isolation: Technology can make us more isolated from other people.
Health problems: Technology can cause problems such as eye strain, obesity, and sleep deprivation.
Environmental damage: The production and use of technology can damage the Environment.

How can we use technology responsibly?

It is important to use technology responsibly in order to minimize the risks and maximize the benefits. Here are some tips for using technology responsibly:

Be aware of the risks of technology.
Use technology in moderation.
Be careful about what information you share online.
Protect your privacy.
Take breaks from technology.
Use technology to connect with other people.
Use technology to learn new things.
Use technology to make a positive impact on the world.

What are the future trends in technology?

It is difficult to predict the future of technology, but some of the trends that are likely to continue include:

The rise of Artificial Intelligence (AI): AI is already being used in many different ways, and it is likely to become even more powerful and sophisticated in the future.
The growth of the Internet of Things (IoT): The IoT is a Network of physical objects that are connected to the internet. This network is growing rapidly, and it is likely to have a major impact on our lives in the future.
The development of new materials: New materials are being developed all the time, and these materials are likely to have a major impact on technology in the future.
The advancement of renewable energy: Renewable energy sources such as solar and wind power are becoming more affordable and efficient, and they are likely to play a major role in the future of energy.
The exploration of space: Space exploration is becoming more affordable and accessible, and it is likely to lead to major advances in technology in the future.

What are the ethical issues surrounding technology?

There are many ethical issues surrounding technology, including:

The use of technology for surveillance and control: Technology can be used to track people’s movements, monitor their communications, and even control their behavior.
The use of technology to create weapons: Technology can be used to create powerful weapons that can cause great harm.
The use of technology to manipulate people: Technology can be used to manipulate people’s thoughts, feelings, and behavior.
The use of technology to create artificial intelligence (AI): AI has the potential to be very powerful, but it also raises ethical concerns about the potential for AI to be used for harmful purposes.
The use of technology to create virtual reality (VR): VR has the potential to be a very immersive and engaging experience, but it also raises ethical concerns about the potential for VR to be used to manipulate people’s perceptions of reality.

It is important to be aware of the ethical issues surrounding technology and to use technology responsibly.

Sure, here are some MCQs without mentioning the topic Indigenous technologies and developing new technologies:

Which of the following is not a type of technology?
(A) Artificial intelligence
(B) Biotechnology
(C) Indigenous technology
(D) Information technology
Which of the following is not a benefit of technology?
(A) Increased productivity
(B) Improved communication
(C) Reduced costs
(D) Increased pollution
Which of the following is not a challenge of technology?
(A) Job displacement
(B) Privacy concerns
(C) Addiction
(D) Increased crime
Which of the following is not a way to use technology responsibly?
(A) Be aware of the risks
(B) Use it for good
(C) Share it with others
(D) Keep it to yourself
Which of the following is not a way to protect yourself from technology addiction?
(A) Set limits on your screen time
(B) Find other activities that you enjoy
(C) Talk to a therapist if you are struggling
(D) Ignore the problem and hope it goes away
Which of the following is not a way to use technology to improve your communication skills?
(A) Use video chat to connect with friends and family
(B) Use Social Media to stay up-to-date on current events
(C) Use email to stay in touch with colleagues
(D) Use technology to avoid face-to-face interaction
Which of the following is not a way to use technology to improve your productivity?
(A) Use a to-do list to keep track of your tasks
(B) Use a calendar to schedule your time
(C) Use a timer to stay on track
(D) Use technology to procrastinate
Which of the following is not a way to use technology to save Money?
(A) Use online shopping to compare prices
(B) Use coupons and Discounts
(C) Use technology to automate your bills
(D) Use technology to spend more money
Which of the following is not a way to use technology to reduce your carbon footprint?
(A) Use energy-efficient appliances
(B) Use public transportation
(C) Use technology to work from home
(D) Use technology to consume more energy
Which of the following is not a way to use technology to make the world a better place?
(A) Use technology to educate others
(B) Use technology to raise awareness about important issues
(C) Use technology to donate to charity
(D) Use technology to spread hate and division

I hope these MCQs are helpful!