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Subject: Science and Technology

  • New IT Rules is not the way forward

    The article deals with the issues involved in the traceability requirement of the originator of information on social media platform as per new IT Rules.

    Traceability clause and issues involved

    • Information Technology (Intermediary Guidelines and Digital Media Ethics Code) Rules, 2021 imposes certain obligation on significant social media intermediaries.
    • Rule 4(2) puts an obligations to ensure traceability of the originator of information on their platforms.
    • Consequently, WhatsApp has filed a petition in the Delhi High Court.
    • WhatsApp contends that the mandate for traceability violates the privacy rights of Indian citizens, by rendering WhatsApp unable to provide encrypted services.

    Government’s response

    • The Government primarily relies on the argument that: privacy is not an absolute right, and that the traceability obligation is proportionate, and sufficiently restricted.
    • Notably, the new Rules mandate traceability only in the case of significant social media intermediaries i.e. those that meet a user threshold of 50 lakh users, which WhatsApp does.
    • Traceability is also subject to an order being passed by a court or government agency and only in the absence of any alternatives.
    • While it is indeed true that privacy is not an absolute right, the Supreme Court of India in the two K.S. Puttaswamy decisions of 2017 and 2018 has laid conditions for restricting this right.
    • In Puttaswamy cases, the Supreme Court clarified that any restriction on this right must be necessary, proportionate and include safeguards against abuse.

    Issues with traceability

    • Not proportionate: A general obligation to enable traceability as a systemic feature across certain types of digital services is neither suitable nor proportionate.
    • No safeguard against abuse: The Rules lack effective safeguards in that they fail to provide any system of independent oversight over tracing requests made by the executive.
    • This allows government agencies the ability to seek any messaging user’s identity, virtually at will.
    • Presumption of criminality:  Weakening encryption — which a traceability mandate would do — would compromise the privacy and security of all individuals at all times, despite no illegal activity on their part, and would create a presumption of criminality.

    Way forward

    • Explore the alternatives: The Government already has numerous alternative means of securing relevant information to investigate online offences including by accessing unencrypted data such as metadata, and other digital trails from intermediaries.
    • Already has ability to access encrypted data: The surveillance powers of the Government are in any case vast and overreaching, recognised even by the Justice B.N. Srikrishna Committee report of 2018.
    • Importantly, the Government already has the ability to access encrypted data under the IT Act.
    • Notably, Section 69(3) of the Information Technology Act and Rules 17 and 13 of the Information Technology Rules, 2009 require intermediaries to assist with decryption where they have the technical ability to do so, and where law enforcement has no alternatives.
    • Judicial scrutiny of Section 79 of IT Act: The ability of the government to issue obligations under the guise of “due diligence” requirements under Section 79 of the IT Act must be subject to judicial scrutiny.
    • Legislative changes needed: The long-term solution would be for legislative change along multiple avenues, including in the form of revising and reforming the now antiquated IT Act, 2000.

    Consider the question “What are the issues involved in the traceability of the originator of the information on social media platforms as mandated by the new IT Rules 2021? Suggest the way forward.”

    Conclusion

    While, undoubtedly, there are numerous problems in the digital ecosystem that are often exacerbated or indeed created by the way intermediaries function, ill-considered regulation of the sort represented by the new intermediary rules is not the way forward.

  • Cryptocurrency & India

    The article highlights the need for coherent cryptocurrency policy and avoid missing the benefits offered by the technology.

    Growing dominance of cryptocurrencies

    • Created by Satoshi Nakamoto in 2008, Bitcoin is the most popular cryptocurrency.
    • It is a fully decentralised, peer-to-peer electronic cash system that didn’t need the purview of any third-party financial institution.
    • The Bitcoin, which traded at just $ 0.0008 in 2010, commanded a market price of just under $65,000 this April.
    • Many newer coins were introduced since Bitcoin’s launch, and their cumulative market value touched $ 2.5 trillion this May.
    • Within a span of just over a decade, their value has surpassed the size of economies of most modern nations.
    •  The “cryptomarket” grew by over 500 per cent, even while the pandemic unleashed global economic carnage not seen since the Great Depression.
    • China’s recent crackdown on cryptocurrency had far-reaching consequences.
    • An astounding trillion US dollars were wiped out from the global cryptomarket within a span of 24 hours.
    • This kind of  volatility mentioned above has always been a concern for regulators and investors alike.

    India’s approach

    • Law enforcement and taxation agencies have called for a ban, expressing concerns over cryptocurrencies being used as instruments for illicit activities, including money laundering and terror funding.
    • In 2018, the Reserve Bank barred our financial institutions from supporting crypto transactions — but the Supreme Court overturned it in 2020.
    • Yet, Indian banks still block these transactions, and the government has circulated a draft bill outlawing all cryptocurrency activities, which has been under discussion since 2019.
    • The Reserve Bank has announced the launch of a private blockchain-supported official digital currency, similar to the digital Yuan.
    • India is increasingly mimicking China’s paradoxical attempt to centralise a decentralised ecosystem.
    • India is trying to decouple cryptocurrencies from their underlying blockchain technology, and still derive benefit.
    • Unfortunately, this is impractical, and shows a lack of understanding of this disruptive innovation.
    • The funds that have gone into the Indian blockchain start-ups are less than 0.2 per cent of the amount the sector raised globally.
    • The current central government approach makes it near-impossible for entrepreneurs and investors to acquire much economic benefit.

    Need for regulation

    • Regulation is definitely needed to prevent serious problems, to ensure that cryptocurrencies are not misused, and to protect unsuspecting investors from excessive market volatility and possible scams.
    •  However, regulation needs to be clear, transparent, coherent and animated by a vision of what it seeks to achieve.
    • India has not been able to tick these boxes, and we’re in danger of missing out in the global race altogether.

    Way forward

    • Any new regulations made in this sector should prevent the misuse of these digital assets without hindering innovation and investments.
    • Provisions have to be made to route the value extracted from these networks transparently into our financial system.
    • Regulatory uncertainties over India’s position on cryptocurrency highlights the need for clear-headed policy-making.

    Consider the question “India was a late adopter in all the previous phases of the digital revolution be it the semiconductors, the internet or smartphones. Do you think the same is happening again in India’s adoption of cryptocurrencies and blockchain technology?”

    Conclusion

    We are currently on the cusp of the next phase, which would be led by technologies like blockchain. We have the potential to channel our human capital, expertise and resources into this revolution, and emerge as one of the winners of this wave. All we need to do is to get our policymaking right.

     

  • Data is an essential weapon against Covid

    The article highlights how data played an important role in decision-making in dealing with the Covid-19 pandemic. 

    Importance of data in decision making

    • The COVID-19 pandemic has highlighted globally how important data is to governments in decision-making.
    • Epidemiological data is of paramount significance for targeting and implementing control measures for public health in a timely manner
    • Such data was used effectively in the evidence-based response and decision-making in countries like South Korea.
    • Modern response to pandemics has focused on exploiting all the available data to inform policy action in real time.

    How data analysis helped during pandemic

    • Data analysis has revealed the need for continuous and repeated tracking of case numbers, fatalities and recoveries.
    • The epidemiological concept of flattening the curve and its predictions are results of data analysis and modelling.
    • Understanding testing adequacy or lack thereof allows us to measure our preparedness, prognostic versus diagnostic ability, and shape our responses to identify, manage, and care for new cases.
    • Epidemic outbreak data like case data, medical and treatment data can be used to understand disease pathogenesis and severity.
    • Genome sequencing surveillance helps identify and track viral genome sequence variants in real time and the evolution of the virus.
    •  The concept of open access to various data enables models to improve forecast and study the spread of the disease.’

    Integration and analysis of multiple datatypes

    • The integration and analysis of multiple heterogeneous datatypes eventually would yield a holistic picture.
    • This helps guide policy decisions for control and management of public health.
    • When genome surveillance data is correlated with the magnitude of cases and their outcomes, then we can understand the transmissibility or infectivity of the virus.
    • Geographical mapping of prevalence of mutants allows us to understand viral spread and explain recoveries or deaths in a specific area.
    • The roll out of vaccinations can shape viral evolution and drug-treatment strategies.
    • Surveillance through studying genome sequencing of the virus, coupled to other epidemiological data allows us to identify these connections.

    Challenges

    • Part of the challenge lies in the standardisation of data collection, curation, annotation and the integration of data analytics pipelines for outbreak analytics.

    Way forward

    • Ensuring data availability and quality under operational constraints is critical.
    • The use of data standards instils consistency, reduces errors and enables transparency.
    • Embedded in the idea of data sharing lies the concept of data security and confidentiality.
    • Concerns of privacy and security calls for a systemic infrastructure with built-in safeguards to ensure data encryption while preserving anonymity and ensuring privacy.
    • As our dependence on data-based decisions becomes more and more critical, an urgent charter for standardised digital health data in India is required.

    Consider the question “The COVID-19 pandemic has highlighted globally how important data is to governments in decision-making. Explain how data helps in decision making and challenges in evidence-based decision making based on data.”

    Conclusion

    Rational and scientific methods necessitate data without which neither can we have information, nor knowledge or wisdom. Data sharing, and transparency and timely dissemination of data are critical to overcome the pandemic.

  • [pib] National AI Portal INDIAai

    The ‘National AI Portal (https://indiaai.gov.in)’, celebrated its first anniversary on May 28, 2021.

    National AI Portal

    • INDIAai is the National AI Portal of India – a central hub for everything AI in India and beyond.
    • A joint initiative of MeitY, NeGD and NASSCOM, the website aims to be the trusted content powerhouse in the backdrop of India’s journey to global prominence in Artificial Intelligence.
    • It serves as a central hub for AI related news, learning, articles, events and activities etc., in India and beyond.
    • It has been set up to prepare the nation for an AI future.
    • It is the single central knowledge hub on artificial intelligence and allied fields for aspiring entrepreneurs, students, professionals, academics, and everyone else.
    • The portal focuses on creating and nurturing a unified AI ecosystem for driving excellence and leadership in India’s AI journey, to foster economic growth and improve lives through it.

    B2BASICS

    Artificial intelligence (AI) is a wide-ranging branch of computer science concerned with building smart machines capable of performing tasks that typically require human intelligence. AI is an interdisciplinary science with multiple approaches, but advancements in machine learning and deep learning are creating a paradigm shift in virtually every sector of the tech industry.

  • New IT Rules 2021

    The article highlights the issues with the Information Technology (Intermediary Guidelines and Digital Media Ethics Code) Rules, 2021.

    Important provision made in the IT Rules 2021

    • The Rules mandate duties such as removal of non-consensual intimate pictures within 24 hours.
    • The rules also mandates publication of compliance reports to increase transparency.
    • Rules provides for setting up of a dispute resolution mechanism for content removal.
    • It provides for adding a label to information for users to know whether content is advertised, owned, sponsored or exclusively controlled.

    Issues with the rules

    1) Affects right to free speech and expression

    • The Supreme Court, in the case of Life Insurance Corpn. Of India vs Prof. Manubhai D. Shah (1992) had elevated ‘the freedom to circulate one’s views as the lifeline of any democratic institution’.
    • So, the rules need to be critically scrutinised for the recent barriers being imposed by it.

    2) Violation of legal principles

    • The rules were framed by the Ministry of Electronics and Information Technology (MeiTY).
    • However, the Second Schedule of the Business Rules, 1961 does not empower MeiTY to frame regulations for digital media.
    • This power belongs to the Ministry of Information and Broadcasting.
    • This action violates the legal principle of ‘colourable legislation’ where the legislature cannot do something indirectly if it is not possible to do so directly.
    • Moreover, the Information Technology Act, 2000, does not regulate digital media.
    • Therefore, the new IT Rules which claim to be a piece of subordinate legislation of the IT Act, goes beyond the rule-making power conferred upon them by the IT Act.
    • This makes the Rules ultra vires to the Act.

    3) Deprives the fair recourse to intermediary

    • An intermediary is now supposed to take down content within 36 hours upon receiving orders from the Government.
    • This deprives the intermediary of a fair recourse in the event that it disagrees with the Government’s order due to a strict timeline.

    4) Privacy violation

    • These Rules undermine the right to privacy by imposing a traceability requirement.
    • The immunity that users received from end-to-end encryption was that intermediaries did not have access to the contents of their messages.
    • Imposing this mandatory requirement of traceability will break this immunity, thereby weakening the security of the privacy of these conversations.
    • This will also render all the data from these conversations vulnerable to attack from ill-intentioned third parties.
    • The threat here is not only one of privacy but to the extent of invasion and deprivation from a safe space.
    • Recent data breach affecting a popular pizza delivery chain and also several airlines highlights the risks involved in such move in the absence of data protection law.
    • Instead of eliminate the fake news, the Rules proceed to hurriedly to take down whatever authority may deem as “fake news”.

    5) Operational cost

    • The Rules create additional operational costs for intermediaries by requiring them to have Indian resident nodal officers, compliance officers and grievance officers.
    • Intermediaries are also required to have offices located in India.
    • This makes profit making a far-fetched goal for multinational corporations and start-up intermediary enterprises.
    • Therefore, not only do these Rules place a barrier on the “marketplace of ideas” but also on the economic market of intermediaries in general by adding redundant financial burdens.

    Consider the question “What are the challenges associated with the social media? How the  Information Technology (Intermediary Guidelines and Digital Media Ethics Code) Rules, 2021 will help is dealing with these challenges? What are the issues with these rules?”

    Conclusion

    Democracy stands undermined in direct proportion to every attack made on the citizen’s right. The IT Rules 2021 have tilt towards violation of rights. Therefore, these rules need reconsideration.

  • [pib] Bharat Ratna Professor CNR Rao

    Bharat Ratna Professor C.N.R. Rao has received the International Eni Award 2020 for research into renewable energy sources and energy storage, also called the Energy Frontier award.

    Who is CNR Rao?

    • Rao is an Indian chemist who has worked mainly in solid-state and structural chemistry.
    • Rao is one of the world’s foremost solid state and materials chemists. He has contributed to the development of the field over five decades.

    His scientific contributions

    His work on transition metal oxides has led to a basic understanding of novel phenomena and the relationship between materials properties and the structural chemistry of these materials.

    • Rao was one of the earliest to synthesize two-dimensional oxide materials such as La2CuO4.
    • He was one of the first to synthesize 123 cuprates, the first liquid nitrogen-temperature superconductor in 1987. He was also the first to synthesis Y junction carbon nanotubes in the mid-1990s.
    • His work has led to a systematic study of compositionally controlled metal-insulator transitions.
    • Such studies have had a profound impact in application fields such as colossal magnetoresistance and high-temperature superconductivity.
    • He has made immense contributions to nanomaterials over the last two decades, besides his work on hybrid materials.

    Answer this PYQ from CSP 2020 in the comment box:

    Q. With reference to carbon nanotubes, consider the following statements:

    1. They can be used as carriers of drugs and antigens in the human body.
    2. They can be made into artificial blood capillaries for an injured part of the human body.
    3. They can be used in biochemical sensors.
    4. Carbon nanotubes are biodegradable.
    Which of the statements given above are correct?
    (a) 1 and 2 only
    (b) 2, 3, and 4 only
    (c) 1, 3, and 4 only
    (d) 1, 2, 3 and 4

    Citations for the Energy Frontiers award

    • Professor Rao has been working on hydrogen energy as the only source of energy for the benefit of all mankind.
    • Hydrogen storage, photochemical and electrochemical production of hydrogen, solar production of hydrogen, and non-metallic catalysis were the highlights of his work.
    • The EF award has been conferred for his work on metal oxides, carbon nanotubes, and other materials and two-dimensional systems, including graphene, boron-nitrogen-carbon hybrid materials, and molybdenum sulfide (Molybdenite – MoS2) for energy applications and green hydrogen production.
    • Green hydrogen production can be achieved through various processes, including the photodissociation of water, thermal dissociation, and electrolysis activated by electricity produced from solar or wind energy.

    Significance of this award

    • This is considered to be the Nobel Prize in Energy Research.
  • Semiconductor chips shortage, and how carmakers are coping

    A shortage of inputs, especially semiconductor chips, has made India-based car manufactures and premium bike makers curtail production across categories.

    Do you know?

    Electronic parts and components today account for 40% of the cost of a new internal combustion engine car, up from less than 20% two decades ago.

    Chip famine

    • The trigger point was the beginning of the Covid-19 pandemic and the subsequent lockdowns across the world that forced shut crucial chip-making facilities in countries including Japan, South Korea, China and the US.
    • A key feature in a chip shortage is that it almost always causes cascading effects, given that the first one creates pent-up demand that becomes the cause for the follow-up famine.

    Why such famine?

    • The COVID-19 pandemic caused disruptions in supply chains and logistics.
    • This is coupled with a 13% increase in global demand for PCs owing to some countries’ shift to a stay-at-home economy.
    • This has impacted the availability of key chips necessary for the manufacturing of a broad range of electronics being a necessary component of every industry.

    What is the impact of the chip famine?

    • Consumers of semiconductor chips, which are mainly car manufacturers and consumer electronics manufactures, have not been receiving enough of this crucial input to continue production.
    • There were two reasons for this: a steady decline in input prices and improvements in the processing power of chips.
    • The number of transistors mounted in IC circuit chips has doubled every two years.
    • Notably, the increase in chip consumption over the last decade is also partly attributable to the rising contribution of electronic components in a car’s bill of materials.

    How have vehicle makers responded?

    • Supply constraints are learned to have caused some output issues at notable Indian auto firms.
    • In addition to delaying vehicle deliveries, some companies have reportedly started discarding features and high-end electronic capabilities on a temporary basis.
  • [pib] 3D distribution of Molecular & Atomic Hydrogen in Galaxies

    Indian scientists have estimated the three-dimensional distribution of molecular and atomic hydrogen in a nearby galaxy which can help lead to clues to the star formation processes and the evolution of the galaxy.

    Study on Hydrogen distribution

    • Galaxies like the one we reside in, the Milky Way, consist of discs containing stars, molecular and atomic hydrogen, and helium.
    • The molecular hydrogen gas collapses on itself in distinct pockets, forming stars, its temperature was found to be low –close to 10 kelvin, or -263 ÂșC, and thickness is about 60 to 240 light-years.
    • The atomic hydrogen extends both above and below the discs.
    • Indian scientists have estimated that molecular hydrogen extends farther from the disc in both directions, up to about 3000 light-years.
    • This gaseous component is warmer than the one straddling the disc and has comparatively lesser densities, thus escaping earlier observations.
    • They called it the ‘diffuse’ component of the molecular disc.

    Answer this PYQ in the comment box:

    Q. Which one of the following sets of elements was primarily responsible for the origin of life on the Earth?

    (a) Hydrogen, Oxygen, Sodium

    (b) Carbon, Hydrogen, Nitrogen

    (c) Oxygen, Calcium, Phosphorous

    (d) Carbon, Hydrogen, Potassium

    Why does this study matter?

    • The molecular hydrogen gas converts to individual stars under the pull of gravity, thus holding clues to the star formation processes and the evolution of the galaxy.
    • If a significant part of the gas extends beyond the thin disc of a few hundred light-years, it may explain why astronomers also observe stars at a few thousand light-years perpendicular to the galactic disc.
  • Indian SARS-CoV-2 Genomic Consortia (INSACOG)

    In early March, members of the Indian SARS-CoV-2 Genomic Consortia (INSACOG), an advisory group to the Central government, warned of a new and contagious form of the novel coronavirus.

    What is INSACOG?

    • INSACOG is a consortium of 10 labs across the country tasked with scanning COVID-19 samples from swathes of patients and flagging the presence of variants that were known to have spiked transmission internationally.
    • It has also been tasked with checking whether certain combinations of mutations were becoming more widespread in India.
    • Some of these labs had begun scanning for mutations in April 2020 itself, but it was not a pan-India effort.
    • The institutes involved were laboratories of the Department of Biotechnology, the CSIR, the ICMR, and the Ministry of Health & Family Welfare (MoHFW).
    • The National Centre for Disease Control (NCDC) under the MoHFW was tasked with coordinating the collection of samples from the States as well correlating disease with the mutations.
    • The work began in January by sequencing samples of people who had a history of travel from the United Kingdom and a proportion of positive samples in the community.

    What are the findings?

    • The “foreign” variants identified were primarily the B.1.1.7 (first identified in the United Kingdom) and the B.1.351 (first found in South Africa) and a small number of P2 variants (from Brazil).
    • However, some labs flagged the growing presence of variants identified in India that were clubbed into a family of inter-related variants called B.1.617, also known as the ‘double mutant’ variant.
    • It was primarily due to two mutations — E484Q and L452R — on the spike protein.
    • The B.1.617 family was marked as an international ‘variant of concern’ after it was linked to a recent spike in cases in the UK.
    • INSACOG labs also found that the B.1.1.7 variant, which is marked by increased infectivity, is distinctly more prevalent in several northern and central Indian States in comparison to southern States.

    Beyond identifying patterns, why is genome sequencing useful?

    • The purpose of genome sequencing is to understand the role of certain mutations in increasing the virus’s infectivity.
    • Some mutations have also been linked to immune escape, or the virus’s ability to evade antibodies, and this has consequences for vaccines.
    • Labs across the world, including many in India, have been studying if the vaccines developed so far are effective against such mutant strains of the virus.
    • They do this by extracting the virus from COVID-19-positive samples and growing enough of it. Then, blood serum from people who are vaccinated, and thereby have antibodies, is drawn.
    • Using different probes, scientists determine how much of the antibodies thus extracted are required to kill a portion of the cultured virus.
    • In general, the antibodies generated after vaccination — and this was true of Covaxin, Covishield, Pfizer and Moderna jabs — were able to neutralize variants.
    • Antibody levels are not the only markers of protection and there is a parallel network of cellular immunity that plays a critical role in how vaccines activate immunity.
    • The current evidence for most COVID-19 vaccines is that they have almost 75% to 90% efficacy in protecting against disease but less so in preventing re-infection and transmission.

    Challenges faced by INSACOG

    • Given that the novel coronavirus is spreading, mutating, and showing geographical variations, the aim of the group was to sequence at least 5% of the samples.
    • For many reasons, this has so far been only around 1%, primarily due to a shortage of funds and insufficient reagents and tools necessary to scale up the process.
    • While some of these issues, the INSACOG, in spite of being peopled by expert scientists, is ultimately an advisory group to the Central government and part of its communication structure.
    • Warnings about emerging variants were not made public with sufficient urgency and the sharing of datasets, even within constituent groups of the INSACOG, was less than ideal.
  • [pib] Magnetospheric Multiscale Mission

    Indian Scientists have developed a theory that helps understand the complicated nature of Sun-Earth interaction’s happening in the magnetosphere

    Magnetospheric Multiscale (MMS) Mission

    • The Magnetospheric Multiscale (MMS) Mission is a NASA robotic space mission to study the Earth’s magnetosphere, using four identical spacecraft flying in a tetrahedral formation.
    • The mission is designed to gather information about the microphysics of magnetic reconnection, energetic particle acceleration, and turbulence⁠—processes that occur in many astrophysical plasma.
    • Indian researchers have developed a theory that solves every bit of uncertainty regarding the conflict between the observations from MMS Mission.

    Answer this PYQ in the comment box:

    Q.Consider the following statements:

    1. The Earth’s magnetic field has reversed every few hundred thousand years.
    2. When the Earth was created more than 4000 million years ago, there was 54% oxygen and no carbon dioxide.
    3. When living organisms originated, they modified the early atmosphere of the Earth.

    Which of the statements given above is/ are correct? (CSP 2018)

    (a) 1 only

    (b) 2 and 3 only

    (c) 1 and 3 only

    (d) 1, 2 and 3

    What is the Magnetosphere?

    • The magnetosphere is the region of space surrounding Earth where the dominant magnetic field is the magnetic field of Earth, rather than the magnetic field of interplanetary space.
    • It is formed by the interaction of the solar wind with Earth’s magnetic field.

    Findings of the Indian Researchers

    • The MMS spacecraft observed negative monopolar potential (electric field potentials which can be visualized in the form of single-humped pulse-type structures).
    • The scientific community suddenly recognized its importance, and publications were presented.
    • However, none of the available theories could explain the characteristics of these structures due to the exotic background conditions.
    • Indian theory provides a better understanding of their characteristics and sheds light on the generation of these structures.
    • This has lead to the unraveling of nature’s greatest mystery that causes phenomena -plasma transport and heating of plasma- the fourth state of matter after solid, liquid, and gas.