The Prayas ePathshala

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31 May 2023

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DAILY CURRENT AFFAIRS ANALYSIS

1 – India’s New Parliament: GS II – Parliament-related issues

Context:

  • The new Indian Parliament building, which embodies the national pride, culture, and spirit in the country’s 75th year of independence, was just opened by the prime minister of India.
  • President Droupadi Murmu, the nation’s first tribal leader, was allegedly ignored by the central administration, prompting 19 opposition parties to skip the inauguration ceremony.

Former Parliament:

  • The declaration of the move of the GoI’s seat from Calcutta to the historic Capital of Delhi was made at the 1911 coronation of George V as Emperor of India.
  • The GoI Act of 1919 established India’s bicameral legislature because it was deemed necessary.
  • The Chausath Yogini temple at Mitawli village in MP’s Morena district is thought to have been the inspiration for the parliament building’s circular design. Construction of the parliament building took six years (and Rs 83 lakhs) from 1921 to 1927.

Why a new Parliament building was required:

Current Parliament is dated:

  • The current Parliament building is a nearly century-old Heritage Grade-I edifice that is overused and in need of repair (it will be transformed into a ‘Museum of Democracy’ once the new Parliament is operational).

MPs have little space to sit:

  • A bicameral legislature for a true democracy was never intended to fit in the current structure.
  • There are only 440 seats available in the Central Hall, and this issue is made worse when the Joint Sessions are convened.
  • After 2026, the present 545 Lok Sabha seats are anticipated to rise dramatically.

Infrastructure in distress:

  • The addition of services like water supply, sewer lines, etc. has caused water seepage at various locations and damaged the building’s beauty.

Safety issues:

  • For instance, structural safety, fire safety, etc. (Delhi is currently in Seismic Zone-IV).

Outdated communication methods:

  • The current Parliament’s communication systems and electronics are out-of-date, and all of the halls’ acoustics might use some work.
  • Employee workspace is insufficient.

New Parliament:

  • It is a component of the Central Vista Project, an ongoing effort to renovate the central administrative district of India, which was created by Sir Edwin Lutyens and Sir Herbert Baker under British colonial authority and is situated close to Raisina Hill in New Delhi.
  • It was created by Tata Projects Ltd. and was designed by Ahmedabad-based HCP Design, Planning and Management, which is led by architect Bimal Patel.

Principal characteristics of the new Capitol building:

  • A “Platinum-rated Green Building” having a built-up size of around 65,000 sq m that is divyang friendly.
  • The best possible use of space is made possible by the triangle design.
  • a larger Rajya Sabha hall (384 seats) with a lotus motif and a larger Lok Sabha chamber (888 seats) with a peacock theme (the national bird of India).
  • Up to 1,272 seats in the Lok Sabha are available for combined sessions of Parliament.
  • Modern Constitutional Hall places Indian citizens at the centre of our democracy both symbolically and practically.
  • Members can socialise in the Central Lounge, which will go well with the outside space (which has a banyan, the country’s tree).
  • contemporary, cutting-edge technologies include an electronic voting system, expertly designed acoustics, and audio-visual systems in each chamber.

Interior embellishments:

  • UNESCO and ASI-protected sites, murals showing maps of ancient India, etc.
  • Large brass statues of B.R. Ambedkar, Sardar Vallabhbhai Patel, Chanakya, Gargi, and the Chariot Wheel from the Sun Temple at Konark are displayed in three ceremonial entrance halls.
  • The new Parliament was adorned with carpets from Mirzapur, Uttar Pradesh, and Tripura’s epitome of bamboo flooring, reflecting the cultural diversity of India in accordance with the “Made in India” policy.

Source The Hindu

2 – NavIC Satellite System: GS III – Space and Technology

Context:

  • In order to address some of the past problems with NavIC, ISRO will launch a new NavIC satellite (NVS-01), which is a member of the second generation of the Indian Regional Navigation Satellite System (IRNSS), also known as NavIC.

NavIC’s (Indian Regional Navigation Satellite System) problems include:

Atomic clock malfunction:

  • After their atomic clocks malfunctioned, several of the current satellites stopped delivering location information.

Replacement of a satellite:

  • The mission life of several of the NAVIC constellation’s satellites has ended or they are now only partially operational.

Insufficient Coverage

  • While NAVIC offers coverage over the whole Indian continent and a 1,500 km radius surrounding it, more expansion and ground stations outside of India are required to increase coverage and accuracy in difficult-to-reach places.

Development of user segments:

  • The NAVIC system’s user receivers have taken longer to create than expected, which has limited how much the navigation services are used.

Mobile Friendliness:

  • The inability of mobile phones in India to process NAVIC signals now prevents the technology from being used widely.

Encryption and security:

  • A critical difficulty is ensuring the security of NAVIC communications and avoiding intrusions or spoofing.

To address some of the concerns, the Satellite now has the following new features:

L1 Periodicity:

  • In addition to the L5 and S frequencies, the L1 frequency is included to improve interoperability with wearable technology and personal trackers. Additionally improving interoperability with other satellite-based navigation systems is the incorporation of L1 frequency.

Increased mission life:

  • The mission life of the second-generation satellites will be greater than 12 years. The mission life of the current satellites is 10 years.

Atomic clock made of rubidium:

  • The atomic clock guarantees precise placement, resolving a problem that earlier satellites in the constellation encountered.
  • A Geosynchronous Satellite Launch Vehicle (GSLV) rocket will launch the NAVIC satellite that weighs the most.
  • Prior satellites were launched on PSLV and were significantly lighter. More instruments and fuel can be loaded due to the increased weight allowance.

The benefits of NavIC over alternative systems:

Geographic Coverage:

  • There are four worldwide satellite-based navigation systems: the American GPS, the Russian GLONASS, the European Galileo, and the Chinese Beidou. The only nation with a regional satellite-based navigation system is India.

Greater Accuracy:

  • NavIC open signals are anticipated to offer precision up to 5 metres once fully operational, exceeding GPS accuracy (20 metres).

Geosynchronous satellites:

  • In contrast to GPS, NavIC uses satellites in high geostationary orbit to guarantee continuous coverage throughout the target area.

Enhancing Signal Reception

  • In contrast to GPS, NavIC signals are easier to receive even in crowded or blocked places because they come at a 90-degree angle in India.
  • ISRO created NavIC to demonstrate India’s technological prowess and lessen reliance on external systems.

Why India needs a regional navigation system

Tactical independence:

  • The NavIC system in India runs on its own and is not dependent on GPS or other worldwide systems.

Governmental Security:

  • For defence operations and military applications, NavIC enables precise tracking and navigation.

Manage disasters:

  • Natural disasters like cyclones and floods are easier to track and respond to with the aid of NavIC.

Navigation and Transportation:

  • NavIC makes it possible to track commercial vehicles precisely, improving efficiency and road safety.

Precision farming and agriculture:

  • NavIC supports farmers in maximising irrigation, soil nutrient delivery, and crop management.

Public and individual safety:

  • Real-time tracking of fisherman is made possible by NavIC, which also notifies users of potential maritime threats.

Technological and scientific developments:

  • Geological exploration, scientific research, and the creation of geodetic networks are all made easier by NavIC.

Conclusion:

  • NavIC’s range currently only reaches 1,500 kilometres outside of Indian borders. However, satellites in medium earth orbit (MEO) would be needed for applications involving ships and aircraft flying beyond this range. Future MEO satellite additions will allow NavIC to expand its global coverage and pursue the provision of global navigation services comparable to those offered by the GPS system.

Source The Hindu

3 – Giant Artificial Intelligence: GS III – Space and Technology

Context:

  • The restrictions and potential drawbacks of employing “giant artificial intelligence” (gAIs) like ChatGPT, Bard, Chinchilla, PaLM, LaMDA, and others.

Insufficient democratic input:

  • gAIs are created from the top down, which limits the participation and input of the intended users.

Decrease in diversity:

  • Local expertise and different viewpoints are frequently abstracted away by gAIs in favour of a more uniform and globalised view of information.

Cultural and linguistic prejudices:

  • The majority of online data used to train models is in English, which can cause them to be biassed and ignore the nuances of other languages and cultures.

Incomplete comprehension:

  • gAIs may offer understandable responses, but they may not fully comprehend the context and nuances of some questions, leaving them with partial or incorrect answers.

Uncertainty in behavior:

  • gAIs have the capacity to respond randomly, which makes their behaviour unpredictable and potentially unreliable.

Artificial general intelligence (AGI) dangers that can arise include:

  • Advances in AGI, a subject of research connected to gAIs, raise serious concerns that they might have disastrous effects.

less human engagement:

  • The reliance on gAIs for knowledge work may result in a reduction in the importance of human judgement and expertise, thereby degrading crucial abilities and experiences.

Ethical issues:

  • The deployment and use of gAIs create ethical issues, such as privacy, accountability, and openness in decision-making.

Source The Hindu

4 – Mohenjodaro’s Dancing Girl: GS I – Indian Culture

Context:

  • The Dancing Girl Sculpture served as the model for the International Museum Expo 2023 mascot.

About the Dancing Girl of Mohenjo-daro:

Discovery:

  • during excavations at Mohenjodaro, a significant Indus Civilization site, in 1926 (by British archaeologist Ernest McKay).

Age:

  • Approximately 4,500 years old, from the Harappan era (3300–1300 BC).

Material:

  • Made of bronze, an alloy of metal mostly composed of copper.

Dimensions:

  • 5 cm tall (based on original figurine).

Appearance:

  • depicts a naked woman wearing several bracelets and a necklace.

Pose:

  • poses with her legs slightly in front of her, a hand on her hip, and a vivacious and enthusiastic stance.

Sophistication in the Arts:

  • represents the high degree of artistic skill and metallurgical expertise in the Harappan culture, exhibiting the use of lost-wax casting methods.

Historical Analysis:

  • The meaning of the figurine has been interpreted differently by historians; some believe she is a dancer, while others think she might be a woman carrying an offering.

Symbolic Meaning:

  • The figurine is a piece of art with aesthetic and symbolic importance that emphasises the existence of high art in Harappan civilisation.

Cultural Relevance:

  • A remarkable Indus Civilization artefact, The Dancing Girl sheds light on the aesthetic and cultural customs of the time.

Present Place:

  • Currently residing in the National Museum of India, where it has a prominent position in the section devoted to Indus Civilization.

Source The Hindu

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