Tag: Technology

Top 10 Train Accidents in India


Train accidents can have devastating consequences, leading to loss of life, injuries, and damage to infrastructure. While I can provide information on notable train accidents in India, it’s important to note that this list may not be exhaustive and may not include the most recent accidents. It’s always advisable to refer to reliable news sources and official reports for the most up-to-date and accurate information. Here are details about ten significant train accidents in India:

Gaisal Train Disaster (1999): On August 2, 1999, the Gaisal Express derailed in Gaisal, Assam, resulting in a collision with an incoming freight train. The accident claimed the lives of 285 people and injured more than 300.

Khanna Rail Accident (1998): On November 26, 1998, near Khanna, Punjab, the Jammu Tawi-Sealdah Express collided with two derailed wagons, causing a massive fire. The accident resulted in the loss of 212 lives and injuries to several others.

Firozabad Train Collision (1995): On August 20, 1995, in Firozabad, Uttar Pradesh, the Purushottam Express collided with a stationary Kalindi Express due to a signal error. The accident caused the deaths of 358 people and injured over 400.

Rafiganj Train Derailment (2002): On September 10, 2002, near Rafiganj, Bihar, the Rajdhani Express derailed after hitting a derailed goods train. The incident resulted in the loss of 130 lives and injured several passengers.

Kanpur Train Derailment (2016): On November 20, 2016, the Indore-Patna Express derailed near Kanpur, Uttar Pradesh. The accident led to the deaths of 150 passengers and injured many others. The exact cause of the derailment was under investigation.

Pukhrayan Train Derailment (2016): On November 20, 2016, near Pukhrayan, Uttar Pradesh, the Indore-Patna Express derailed, resulting in one of the deadliest train accidents in recent times. The accident claimed the lives of 152 passengers and caused injuries to numerous individuals.

Howrah-New Delhi Rajdhani Express Accident (1991): On September 6, 1991, the Howrah-New Delhi Rajdhani Express collided with a derailed freight train near Khanna, Punjab. The accident led to the deaths of 57 people and injured many others.

Awadh-Assam Express Collision (1995): On April 21, 1995, the Awadh-Assam Express collided with the Brahmaputra Mail near Ghaziabad, Uttar Pradesh. The accident resulted in the loss of 57 lives and caused injuries to several passengers.

Midnapore Train Derailment (2010): On May 28, 2010, the Howrah-Kurla Lokmanya Tilak Gyaneshwari Express derailed near Midnapore, West Bengal. The accident was caused by sabotage, resulting in the deaths of 148 passengers and injuries to many others.

Kalka Mail Train Accident (2011): On July 10, 2011, the Howrah-Delhi Kalka Mail derailed near Fatehpur, Uttar Pradesh. The accident led to the loss of 69 lives and injured numerous passengers.


The death toll in the three-train accident at Bahanaga Bazar station in Odisha’s Balasore rose to 288 on Saturday and left over 1,000 injured, with a preliminary probe implying human error in the deadliest railway tragedy in 30 years. Railway minister Ashwini Vaishnaw who reviewed the restoration work at the Balasore triple train collision site on Sunday, said that the accident that claimed the lives of 288 passengers happened due to a change in electronic interlocking. 

It’s important to note that these accidents are tragic events that highlight the need for continuous efforts in improving railway safety, infrastructure maintenance, and implementation of advanced technologies to prevent such incidents in the future.

Creating a Pandemic-proof Infrastructure

During the last few years, the world saw a crisis that shook every aspect of human life. A crisis that comes once in many decades. Almost every country experienced a complete lockdown at some point in time. Many countries with previously thought-to-be world-class health-care systems have also been tried, pushed to the limit, and in some respects found wanting. The pandemic took all countries by surprise and the discussion on appropriate national and global strategies is very diverse. The COVID-19 epidemic has demonstrated what is at risk, upending the lives of families worldwide. Millions of people have died, and a generation of kids has experienced a learning catastrophe.

The two years of the pandemic highlighted the current inadequacies of our healthcare delivery system and the need for urgent improvisation. The two years have seen us go through harrowing times—patients died for want of hospital beds and oxygen; the ventilator supply ran dry; high infections led to a severe manpower crunch at hospitals; there were not enough vaccines available then. Our healthcare system had crumbled under pressure, and our frontline workers, both in public and private hospitals, had burned themselves out. And now with cases rising, there is fear of a return to the past among healthcare workers.

Although the pandemic has eased, the virus is still alive and mutating and more pandemics are expected to follow. In the wake of this scenario, it is important for the world community to better equip ourselves to tackle such situations in the future. It is the moment that we realise the importance and need to strengthen healthcare infrastructure globally. It is time to work on making a pandemic-proof healthcare system for the future. Below are the areas that need to be focused on:

  • ·         Curative services – there is a need for the expansion of telemedicine from triage, diagnosis, and follow-up services covering all conditions (acute to chronic). Making institutions adapt and become centres of knowledge dissemination- telemedicine and all possibilities of e- and m-health and provide knowledge to people at home, on what symptoms to look out for, where to test, how to self-care, etc for not only Covid-19 but for other conditions too.
  • ·         Improve primary health care – Better primary health care will help us protect against future pandemics. Improving primary health care includes recruiting, training, and prioritising healthcare workers, and establishing effective surveillance and response systems, building confidence in health services through community outreach.
  • ·         Improve logistics and supply – There are a lot of logistics that are needed in a healthcare system. Some examples include masks, gloves, PPEs, disinfectants, etc. Apart from there’s also the supply of syringes and the cold chain storage that’s been necessary to make sure that the vaccines are stored at the proper temperature and don’t go to waste.  Increased investments in this type of infrastructure will assist to guarantee that communities obtain the immunizations they require while also protecting them from future outbreaks.
  • ·         Promotive and preventive healthcare services – The pandemic has demonstrated that having an underlying condition like diabetes, hypertension or obesity predisposes one to complications, long hospital stays, and mortality. Because of all these reasons, COVID-19 has been categorised as a syndemic rather than a pandemic. It is necessary to provide preventive and promotive health services like boosting one’s immune system through diet, exercise, and supplements, in different formats, online, face-to-face, or through home visits.
  • ·         Mental health services – Mental health issues during the pandemic are threatening to become the next pandemic. Stress and mental health issues related to lockdowns affect everyone but tend to affect the weaker segments of society more severely. It is necessary to create awareness about mental health and make mental health services available, accessible, and affordable to all.

It is true that we need to build pandemic-proof health infrastructure. But does Covid-19 expose our health sector only or show us the reality of other aspects also? Working only on health will not be sufficient. We also need to improve our social, educational and political infrastructure. The world saw a huge dropout of students because of online classes during pandemic. Some of the major reasons given for dropping are fairly obvious: technology problems, lack of support, poorly designed courses, and technologically inexperienced educators. This demands due consideration and commitment. The epidemic has impacted numerous nations’ governmental and political systems, resulting in declarations of emergency, suspensions of legislative activity, isolation or death of multiple lawmakers, and postponing of elections owing to worries of viral transmission.Furthermore, in certain areas, the epidemic has posed various problems to democracy, causing it to be weakened and harmed. Hence, building a pandemic-proof political infrastructure will not only ensure an efficient response to tackle the crisis but also provide basic institutional support to the nation and to the world as a whole.

This is a unique moment where we have an opportunity to learn from this pandemic and prevent others in the future. The legacy of COVID-19 mustn’t be one of disruption and disparity, but instead a moment of monumental change.

Creating a Pandemic-proof Infrastructure

During the last few years, the world saw a crisis that shook every aspect of human life. A crisis that comes once in many decades. Almost every country experienced a complete lockdown at some point in time. Many countries with previously thought-to-be world-class health-care systems have also been tried, pushed to the limit, and in some respects found wanting. The pandemic took all countries by surprise and the discussion on appropriate national and global strategies is very diverse. The COVID-19 epidemic has demonstrated what is at risk, upending the lives of families worldwide. Millions of people have died, and a generation of kids has experienced a learning catastrophe.

The two years of the pandemic highlighted the current inadequacies of our healthcare delivery system and the need for urgent improvisation. The two years have seen us go through harrowing times—patients died for want of hospital beds and oxygen; the ventilator supply ran dry; high infections led to a severe manpower crunch at hospitals; there were not enough vaccines available then. Our healthcare system had crumbled under pressure, and our frontline workers, both in public and private hospitals, had burned themselves out. And now with cases rising, there is fear of a return to the past among healthcare workers.

Although the pandemic has eased, the virus is still alive and mutating and more pandemics are expected to follow. In the wake of this scenario, it is important for the world community to better equip ourselves to tackle such situations in the future. It is the moment that we realise the importance and need to strengthen healthcare infrastructure globally. It is time to work on making a pandemic-proof healthcare system for the future. Below are the areas that need to be focused on:

  • ·         Curative services – there is a need for the expansion of telemedicine from triage, diagnosis, and follow-up services covering all conditions (acute to chronic). Making institutions adapt and become centres of knowledge dissemination- telemedicine and all possibilities of e- and m-health and provide knowledge to people at home, on what symptoms to look out for, where to test, how to self-care, etc for not only Covid-19 but for other conditions too.
  • ·         Improve primary health care – Better primary health care will help us protect against future pandemics. Improving primary health care includes recruiting, training, and prioritising healthcare workers, and establishing effective surveillance and response systems, building confidence in health services through community outreach.
  • ·         Improve logistics and supply – There are a lot of logistics that are needed in a healthcare system. Some examples include masks, gloves, PPEs, disinfectants, etc. Apart from there’s also the supply of syringes and the cold chain storage that’s been necessary to make sure that the vaccines are stored at the proper temperature and don’t go to waste.  Increased investments in this type of infrastructure will assist to guarantee that communities obtain the immunizations they require while also protecting them from future outbreaks.
  • ·         Promotive and preventive healthcare services – The pandemic has demonstrated that having an underlying condition like diabetes, hypertension or obesity predisposes one to complications, long hospital stays, and mortality. Because of all these reasons, COVID-19 has been categorised as a syndemic rather than a pandemic. It is necessary to provide preventive and promotive health services like boosting one’s immune system through diet, exercise, and supplements, in different formats, online, face-to-face, or through home visits.
  • ·         Mental health services – Mental health issues during the pandemic are threatening to become the next pandemic. Stress and mental health issues related to lockdowns affect everyone but tend to affect the weaker segments of society more severely. It is necessary to create awareness about mental health and make mental health services available, accessible, and affordable to all.

It is true that we need to build pandemic-proof health infrastructure. But does Covid-19 expose our health sector only or show us the reality of other aspects also? Working only on health will not be sufficient. We also need to improve our social, educational and political infrastructure. The world saw a huge dropout of students because of online classes during pandemic. Some of the major reasons given for dropping are fairly obvious: technology problems, lack of support, poorly designed courses, and technologically inexperienced educators. This demands due consideration and commitment. The epidemic has impacted numerous nations’ governmental and political systems, resulting in declarations of emergency, suspensions of legislative activity, isolation or death of multiple lawmakers, and postponing of elections owing to worries of viral transmission.Furthermore, in certain areas, the epidemic has posed various problems to democracy, causing it to be weakened and harmed. Hence, building a pandemic-proof political infrastructure will not only ensure an efficient response to tackle the crisis but also provide basic institutional support to the nation and to the world as a whole.

This is a unique moment where we have an opportunity to learn from this pandemic and prevent others in the future. The legacy of COVID-19 mustn’t be one of disruption and disparity, but instead a moment of monumental change.

India EU Trade and Technology Council

 Union Minister for Commerce & Industry, Textiles, Consumer Affairs, Food & Public Distribution, Sh. Piyush Goyal held a bilateral meeting with the European Commissioner for Internal Trade, Mr. Thierry Breton on the sidelines of the 1st Ministerial meeting of India EU Trade and Technology Council (TTC). During the meeting, both sides underscored the importance of shared democratic values and complementary nature of both India and EU going forward. Both sides agreed that appropriate political commitment can be made to strengthen our bilateral relations taking to new heights.

Sh. Piyush Goyal informed that India has undertaken an ambitious growth trajectory for the next 25 years and has achieved many of the sustainable development goals. The target of having about 40% source of energy from renewables has already been achieved much before the committed timeline of 2030. India has set a further target of creating 500GW of renewable resources to be achieved by 2030. He noted that both our economies have different basis and this provides an opportunity for greater engagement given the current geopolitical scenario. On the suggestion of Mr. Breton for exploring engagement in the space sector, Sh. Goyal informed that India is amongst the major powers in the space sector and that both sides can have deeper engagements in the sector.

Further, the Minister informed that India has become a global leader in respect of fintech with UPI and Rupay. India has also come out with an open network for digital commerce (ONDC) which has capability to integrate all the buyers and sellers across networks. Mr Breton informed that EU is working on new Digital Services Act to which Sh. Goyal said that both sides can collaborate further given India’s status as an IT giant. He further informed that India has the world’s third largest startup ecosystem and has included B20 track in G20 meetings. This provides for greater engagements in digital space and other areas.

On the issue of carbon border adjustment mechanism (CBAM), Sh. Goyal informed that further study needs to be undertaken as to how this could impact enterprises on both sides, impact on trade and the effect on consumers due to increased price of goods and services.

General Science

General science is a field of study that encompasses a wide range of scientific disciplines, including biology, chemistry, physics, and earth sciences. It is the foundation upon which many scientific discoveries and advancements are made. In this article, we will explore some of the key concepts and branches of general science.

Biology:
Biology is the study of living organisms and their interactions with each other and the environment. It covers a wide range of topics, from the structure and function of cells to the behavior and ecology of entire ecosystems. Biology plays a crucial role in many areas of our lives, including medicine, agriculture, and environmental management.

Chemistry:
Chemistry is the study of matter and its properties. It covers topics such as the structure of atoms and molecules, chemical reactions, and the properties of different elements and compounds. Chemistry is a key discipline in many fields, including materials science, medicine, and engineering.

Physics:
Physics is the study of matter and energy and their interactions with each other. It covers topics such as mechanics, thermodynamics, electromagnetism, and quantum mechanics. Physics is essential to many areas of modern technology, including telecommunications, electronics, and aerospace.

Earth Sciences:
Earth sciences cover a wide range of topics related to the planet we live on, including geology, meteorology, and oceanography. These fields of study help us understand the physical processes that shape the earth’s surface and climate. They are also important in managing natural resources, predicting and mitigating natural disasters, and understanding the impact of human activity on the environment.

Scientific Method:
The scientific method is a systematic approach to scientific inquiry. It involves observing phenomena, formulating hypotheses, testing those hypotheses through experiments, and drawing conclusions based on the results. The scientific method is a key tool for scientists in all fields, allowing them to gather reliable data and draw meaningful conclusions.

Scientific Discoveries:
Science has led to many important discoveries throughout history. Some of the most notable include the discovery of penicillin, the development of the theory of evolution, and the discovery of the structure of DNA. These discoveries have had far-reaching impacts on our understanding of the world and have led to many important advancements in medicine, agriculture, and technology.

Science Education:
Science education is crucial in developing scientific literacy and promoting scientific thinking. It helps individuals understand the natural world and the scientific principles that govern it. Science education is also essential in preparing individuals for careers in science, technology, engineering, and mathematics (STEM) fields.

Conclusion:
In conclusion, general science is a vast field that encompasses many different scientific disciplines. It is the foundation upon which many scientific advancements are made, and it plays a crucial role in our lives. Through the scientific method, scientists are able to make important discoveries and advancements that help us understand the world around us. Science education is also critical in developing scientific literacy and promoting scientific thinking, which is essential in preparing individuals for careers in STEM fields.

By:- Baibhav Raj Maharana

BharOS : India's indigenous mobile Operating System.

With the advent of the smartphone era, majorly two OS (Operating System) which are Google’s Android and Apple’s iOS have been dominating the market. India has a population of more than 140 crore people and smartphone users account for more than 75 crores and we are dependent on the big tech giants for OS services. Also, the problem with renowned names such as android and iOS is that they come primarily with pre-installed apps and users have limited alternatives to switch to, which creates the issue with user privacy. So, there is a need for our own indigenous OS for Indian smartphone users. An IIT Madras Incubated organization has developed BharOS, a made in India Operating System.

BharOS is an AOSP (Android Open Source Project) Operating System based on the Linux kernel. It is developed by JandKops (JandK Operations Private Limited), which is a non-profit organization incubated at Indian Institute of Technology Madras.

BharOS is basically a really clean fork of AOSP that provides an NDA (No Default Apps) setting, which means that users do not have to keep or use pre-installed apps in this mobile operating system. NDA is key as many pre-installed apps that currently ship with other smartphones can slow down the device or take a toll on battery life by acting as bloatware. Going with an NDA design for BharOS was intentional as it will let users have more control over the apps on their mobile phones based on the user’s trust in the app and the kind of data they store on their phone.

BharOS also provides access to a Private App Store Service called PASS, which is a list of apps that have been thoroughly vetted and have been verified to comply with businesses’ privacy and security needs.

BharOS would offer NOTA (Native Over the Air) updates, meaning that security updates and bug fixes will be automatically installed rather than users having to check for updates and implement them on their own.

As of now, BharOS is not rolled out for public use but developers claimed that they have given access to the OS to certain organizations with stringent privacy and security requirement. BharOS developers claim that BharOS is better than both Android and iOS in terms of features and security. On top of that, they also claim that BharOS could even improve the battery life of the device. It will also allow users to install apps of their interest and will ship with an India-based app store. BharOS is a contribution towards the idea of a self-reliant India or ‘Atmanirbhar Bharat’ by creating a secure OS environment for India-based users.

Know about TRAI's proposal of displaying name with phone number.

In November last year, TRAI floated a consultation paper seeking comments about the potential introduction of Caller Name Presentation (CNAP).

The feature will allow users to know the identity of the person calling them. The basic idea is that if people are aware of the person who is calling them, they can make an informed choice about those calls. At the same time, such a feature could potentially help in curbing harassment and other spam calls.

The proposal CNAP will also be difficult to execute from a technical perspective given that a number of phones in the Indian market may not be able to support it, telcos have said.

Meanwhile, Truecaller, which already offers a similar service albeit through a crowdsourcing model has said since several people purchase SIM cards using forged identity cards, TRAI’s proposal to use SIM registration data to display callers’ names might be fraught with inaccuracies since “the identity of the actual user of a mobile number may not be the same as the subscriber”.

By 2027, India could assemble 1 in 2 Iphone according to a report.

India is projected to assemble up to 50 per cent of Apple’s iPhones by 2027, which will be a significant increase from the current rate of less than five per cent. According to a report by the South China Morning Post, it will bring India’s level of production in line with that of mainland China.

India could produce one in two of the world’s iPhones by 2027 as compared to the current percentage which stands at less than 5 percent, as per a latest  forecast by Luke Lin.

Here Luke Lin is an analyst at the research unit of Taiwan’s DigiTimes newspaper, in the South China Morning Post.

It appears that this  forecast is more aggressive than JPMorgan’s earlier prediction that India would assemble 25 percent of total Apple iPhones worldwide by 2025.

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India's first underwater tunnel to be built in West Bengal, expected to start by december 2023.

The first underwater tunnel in India is being built as part of the East-West Metro Corridor’s project, and it will take about 45 seconds for trains to cover the 520-meter stretch. The tunnel that goes under the Hoogly river in West Bengal is being touted as the Indian version of Eurostar’s London-Paris corridor. An estimated cost of Rs 120 crores is being spent on the project.

The tunnel, which is about 2.5 kilometres long, is expected to be commissioned in 2023 following the completion of the section between Sealdah and Esplanade.

The tunnel runs through the Salt Lake Sector V IT hub metro station in the east to Howrah Maidan in the west under the river. The construction of the tunnel has already been completed, and it is expected to be operational in December 2023 following the completion of a 2.5-kilometer section between Sealdah and the Esplanade.

India to become a hub of drone technology.

Union Information and Broadcasting Minister Anurag Thakur this week said that India will become a hub of drone technology and the country will require at least 1 lakh drone pilots by next year. He was speaking at the gathering after flagging of the ‘Drone Yatra 2.0’, in Chennai.

Stating that India will require at least 1 lakh pilots in 2023, he said that each pilot will earn at least Rs 50-80 thousand a month. “If you take the Conservative Average even Rs 50,000 × 1 lakh youth × 12 months = Rs. 6000 crores a year worth employment could be created in the Drone sector,” he said

Apart from this, Industries and Government agencies which use Drones will also be impacted. He appreciated the that Garuda Aerospace’s plan to make one lakh ‘Made in India’ drones in the next two years.

Garuda’s Drone Skilling & Training Conference which is to be conducted in 775 districts across the country hopes to reach 10 lakh Youth. With an aim to train 1 lakh Youth to significantly impact not just the Drone ecosystem or generate employment for Youth, but hopes to create a massive impact in agriculture, mining, government departments and Other industries.

While noting that currently there are over 200 drone start-ups operating in the country, the minister said that this number will increase to generate lakhs of new job opportunities for the youth.

Indian telecom sector to hire staffs laid off by big tech MNCs.

According a report by Economics Times : The Indian telecom eco-system could absorb up to 30% of the workforce laid off at the big tech firms and who chose to return to India. These include employees across technical and service profiles, say staffing experts.

Companies like Meta, Amazon, Twitter, Microsoft and Stripe among many others have laid off employees and rationalised their employee base. According to estimates by TeamLease, over 62,000 employees have received the pink slip in 2022.

While employees at tech firms are facing headwinds in light of the pink slips being dealt out, the Indian telecom eco-system has increased its hiring over the past few quarters in light of the 5G rollout.

Given the hiring impetus that the telecom sector is seeing, one would expect it to absorb a majority of the employees laid off. However, there is only so much of a skill overlap between the workforce being laid off, and the requirement at the telecom companies say experts.

How roll out of 5g services will help Indian economy?

The transition to 5G will unlock new use cases and revenue streams through innovative business models. It will bolster the startup ecosystem and enable India to be an R&D hub for 5G technology and use cases. Developing 5G applications is likely to have a huge impact across industries.

In India, the engineering/advanced manufacturing segment offers the largest 5G/IoT opportunity. Multiple use cases exist in this segment with benefits of increased efficiency, productivity, better safety standards, and highly efficient production. In healthcare, 5G’s benefits can immediately be realized in home-based care and connected hospital devices as 5G facilitates real-time data transfer.

The Indian M&E sector is transitioning from passive consumption to participative consumption fueled by the popularity of immersive technologies such as AR and VR, networked gaming, and interactive game shows. 5G may help accelerate this trend and completely transform the consumer experience.

Further, the advent of 5G may significantly enhance connected car features and usher in the age of autonomous vehicles (AV) in India.

India to test Agni-V missile.

India recently issued a NOTAM notice declaring the Bay of Bengal a no-fly zone ahead of another Agni-V ballistic missile test scheduled for December 15-16 from Abdul Kalam Island off the coast of Odisha.

The development comes amid the reported movement of a Chinese research vessel in the Indian Ocean Region (IOR). According to data collected by the Norwegian company Maritime Optima, as reported by ThePrint, Yuan Wang 5 re-entered the Indian Ocean region. The report stated that the Yuan Wang 5 was currently southbound in the Indian Ocean off the coast of the Indonesian island of Java.

Agni V is India’s long-range surface-to-surface ballistic missile, capable of hitting a target 5,000 kilometres away with pinpoint accuracy. This range puts almost the entire country of China within the missile’s range. Though an ICBM requires a missile with a range of at least 5,500 km, India’s closest contender for an ICBM is the Agni 5, which can reach countries on other continents, including parts of Africa and Europe.

Though the government claims that it has a maximum range of around 5,000 kilometres, several reports indicate that it can hit targets as far away as 8,000 kilometres, according to the report. The nuclear-capable missile can carry a warhead weighing around 1,500 kg and has a launch weight of 50,000 kg, making it one of the country’s most powerful missiles.

UPI payments remains favourite mode for Indians.

UPI has once again emerged as the most favoured mode of payment in India. The UPI transactions volume and value has almost doubled since last year and recorded about an 88 per cent increase in volume and over 71 per cent increase in value in the third quarter of the current fiscal as compared to the same quarter last year, according to Worldline India’s ‘Digital Payments Report’ for the third quarter.

UPI clocked over 19.65 billion transactions in volume and Rs 32.5 lakh crore in terms of value in the third quarter this year. The top three UPI apps in terms of volume and value were PhonePe, GooglePay and Paytm Payments Bank App.

UPI, Debit and Credit cards, Prepaid Payment Instruments like Mobile Wallets, and Prepaid Cards executed a total of 23.06 billion transactions amounting Rs 38.32 trillion.