Open Day at SJCE showcases student innovations
CG Betsurmath, executive secretary of JSS Mahavidyapeetha, Mysuru, inaugurated the Open Day and launched a 'Virtual Tour' application. The application created by students was designed to assist attendees in navigating the Open Day campus events.
Live demonstrations of student projects and working models were presented, along with a variety of competitions, including model exhibitions, poster presentations and prototype displays.
Engineering students participated in project presentation competitions, while department exhibits were evaluated by a panel of judges.
A major crowd-puller was the air show facilitated by the department of mechanical engineering at the KSCA Grounds.
AN Santosh Kumar, vice chancellor; C Nataraju, principal (in-charge); P Nanjundaswamy, controller of examinations; BS Harish, deputy registrar; and event conveners KM Anil Kumar and MN Nagendra Prasad were present.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Time of India
a day ago
- Time of India
‘Loom Alert' to fix night accidents caused due to highway hypnosis
1 2 3 4 Nagpur: Despite improved infrastructure and awareness campaigns, fatal accidents on the Samruddhi Expressway continue, especially after dark. Now, a city-based physicist and his student research team have developed an innovative solution they believe could save lives. Named 'Loom Alert', it is a light-based alert system aimed at snapping drivers out of night-time drowsiness and highway hypnosis. The idea struck after a recent crash near Umred, in which four members of the same family were killed as the driver reportedly fell asleep around 7pm. "The pattern was clear, long stretches of unlit road, driver fatigue, and hypnotic monotony," said Sanjay Dhoble, senior faculty at Nagpur University's Department of Physics. "That's when I began working with my students to devise a visual intervention that could re-engage the brain mid-journey. The new system would be installed 50km each on both sides of petrol pumps where there are no lights," he told TOI. Working with MSc Physics student Khushboo Singh and MBA student Namika Shaikh, Dhoble designed a model that introduces a 'light tunnel'. The model includes an illuminated gateway made of LED-lit plastic panels, with peacock motifs and colourful light clusters on either side. Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Web Search For YouTube search Search Now Undo by Taboola by Taboola As vehicles approach, drivers encounter a corridor of light and colour — LED trees in red, blue, and green — placed every 10m for 2–5km. "Loom Alert is not just about aesthetics. The sudden change in environment, brightness, and colour pattern triggers the brain out of trance-like states that long, dark highways tend to induce," said Singh. The model has now secured an international patent, and the team is advocating its implementation every 100km along the Samruddhi corridor. Dhoble insists the light-based setup could dramatically reduce hypnosis-induced accidents. "We're not redesigning infrastructure, we're adding a layer of consciousness to existing journeys," he said. He also emphasised the broader responsibility of academic institutions. "A university must serve society through meaningful, applied research. Our students must learn to innovate for real-world problems," Dhoble said, adding that its cost would be around Rs10,000 to Rs15,000. He added that he would be ready to extend all cooperation to the Maharashtra State Road Development Corporation (MSRDC) officials to install the system, who manage the Samruddhi Highway. University officials, including acting vice-chancellor Madhavi Khode-Chaware, Pro VC Subhash Kondawar, registrar Raju Hiwase, finance officer Harish Paliwal, and Physics Department Head Omprakash Chimankar, congratulated the team. Nagpur: Despite improved infrastructure and awareness campaigns, fatal accidents on the Samruddhi Expressway continue, especially after dark. Now, a city-based physicist and his student research team have developed an innovative solution they believe could save lives. Named 'Loom Alert', it is a light-based alert system aimed at snapping drivers out of night-time drowsiness and highway hypnosis. The idea struck after a recent crash near Umred, in which four members of the same family were killed as the driver reportedly fell asleep around 7pm. "The pattern was clear, long stretches of unlit road, driver fatigue, and hypnotic monotony," said Sanjay Dhoble, senior faculty at Nagpur University's Department of Physics. "That's when I began working with my students to devise a visual intervention that could re-engage the brain mid-journey. The new system would be installed 50km each on both sides of petrol pumps where there are no lights," he told TOI. Working with MSc Physics student Khushboo Singh and MBA student Namika Shaikh, Dhoble designed a model that introduces a 'light tunnel'. The model includes an illuminated gateway made of LED-lit plastic panels, with peacock motifs and colourful light clusters on either side. As vehicles approach, drivers encounter a corridor of light and colour — LED trees in red, blue, and green — placed every 10m for 2–5km. "Loom Alert is not just about aesthetics. The sudden change in environment, brightness, and colour pattern triggers the brain out of trance-like states that long, dark highways tend to induce," said Singh. The model has now secured an international patent, and the team is advocating its implementation every 100km along the Samruddhi corridor. Dhoble insists the light-based setup could dramatically reduce hypnosis-induced accidents. "We're not redesigning infrastructure, we're adding a layer of consciousness to existing journeys," he said. He also emphasised the broader responsibility of academic institutions. "A university must serve society through meaningful, applied research. Our students must learn to innovate for real-world problems," Dhoble said, adding that its cost would be around Rs10,000 to Rs15,000. He added that he would be ready to extend all cooperation to the Maharashtra State Road Development Corporation (MSRDC) officials to install the system, who manage the Samruddhi Highway. University officials, including acting vice-chancellor Madhavi Khode-Chaware, Pro VC Subhash Kondawar, registrar Raju Hiwase, finance officer Harish Paliwal, and Physics Department Head Omprakash Chimankar, congratulated the team.
Time of India
6 days ago
- Time of India
Using non-stick cookware at home? Here's why it could increase the risk of type 2 diabetes
A recent study by Mount Sinai researchers reveals a significant link between exposure to PFAS, commonly known as forever chemicals, and an increased risk of developing type 2 diabetes. Analyzing data from over 70,000 participants, the study found that higher PFAS levels correlate with a 31% increase in diabetes risk, potentially due to metabolic irregularities. Forever chemicals are everywhere. From the water we drink to the food we eat, and even in human cells, this class of synthetic chemicals is everywhere. But can they cause illnesses? A recent study has looked at the association between forever chemicals and type 2 diabetes. A new study led by Mount Sinai researchers found a close link between forever chemicals and diabetes. The findings are published in eBioMedicine . What are forever chemicals Forever chemicals, which were developed in the 1940s, have become a part of our lives now. Also known as PFAs, per- and polyfluoroalkyl substances, forever chemicals, are a class of synthetic chemicals. Known for their durability (resistance to heat, oil, and water), PFAs are used in products ranging from Teflon pans to cosmetics, dental floss, and fast-food wrappers. Yes, from nonstick cookware to stain-resistant furniture to waterproof clothing, PFAs are everywhere PFAs and type 2 diabetes The researchers have now found a link between PFAs and type 2 diabetes. They found that exposure to these chemicals may increase the risk of developing type 2 diabetes. They found that these associations could be due to metabolic irregularities in amino acid biosynthesis and drug metabolism, which may help explain how PFAS affect the body's ability to regulate blood sugar. To understand the impact of PFAs on human health, the researchers conducted a study. They looked at the data of more than 70,000 study participants who have sought care at The Mount Sinai Hospital in New York City since 2007. Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like If you have a mouse, play this game for 1 minute Navy Quest Undo by Taboola by Taboola Based on available data, the researchers analyzed 180 people recently diagnosed with type 2 diabetes (T2D) and compared them to 180 similar individuals without diabetes. The researchers then looked at their blood samples to analyze PFAS levels. They found that higher levels of PFAS were associated with a significantly greater risk of developing T2D in the future. Each increase in range of PFAS exposure was linked to a 31% increase in risk. They also found that these associations could be due to metabolic irregularities in amino acid biosynthesis and drug metabolism, which may help explain how PFAS affect the body's ability to regulate blood sugar. What are the experts saying Vishal Midya, PhD, MStat, corresponding author and assistant Professor, Environmental Medicine, Icahn School of Medicine at Mount Sinai, said, 'PFAS are synthetic chemicals that resist heat, oil, water, and stains, and are found in countless everyday consumer products. Because they don't break down easily, PFAS accumulate in the environment—and in human bodies. Our study is one of the first to examine how these chemicals may disrupt the body's metabolism in ways that increase diabetes risk—particularly in diverse US populations. ' Supreme Court Pushes Central Govt to Finalise FOPL: What It Means & Why It Matters? | Explained The study emphasizes the importance of preventing PFAS exposures to promote public health. 'This research leverages an exposomics framework to characterize environmental impacts and associated metabolic alterations contributing to the development of type 2 diabetes in vulnerable US populations. Findings can help us design more effective interventions for the early prevention of type 2 diabetes in the future, taking into account individuals' exposures to environmental chemicals along with other well-known genetic, clinical, and lifestyle factors implicated in diabetes development. Mounting research suggests that PFAS are a risk factor for several chronic diseases, such as obesity, liver disease, and diabetes,' Damaskini Valvi, MD, PhD, MPH, senior author and associate professor, Public Health and Environmental Medicine, Icahn School of Medicine at Mount Sinai, added.
Scroll.in
16-07-2025
- Scroll.in
Is population decline good for nature? Japan shows that may not be the case
Since 1970, 73% of global wildlife has been lost, while the world's population has doubled to 8 billion. Research shows this isn't a coincidence but that population growth is causing a catastrophic decline in biodiversity. Yet a turning point in human history is underway. According to UN projections, the number of people in 85 countries will be shrinking by 2050, mostly in Europe and Asia. By 2100, the human population is on course for global decline. Some say this will be good for the environment. In 2010, Japan became the first Asian country to begin depopulating. South Korea, China and Taiwan are following close behind. In 2014, Italy was the first in southern Europe, followed by Spain, Portugal and others. We call Japan and Italy 'depopulation vanguard countries' on account of their role as forerunners for understanding possible consequences in their regions. Given assumptions that depopulation could help deliver environmental restoration, we have been working with colleagues Yang Li and Taku Fujita to investigate whether Japan is experiencing what we have termed a biodiversity ' depopulation dividend ' or something else. Since 2003, hundreds of citizen scientists have been collecting biodiversity data for the Japanese government's Monitoring Sites 1,000 project. We used 1.5 million recorded species observations from 158 sites. These were in wooded, agricultural and peri-urban (transitional spaces on outskirts of cities) areas. We compared these observations against changes in local population, land use and surface temperature for periods of five to 20 years. Our study, published in the journal Nature Sustainability, includes birds, butterflies, fireflies, frogs and 2,922 native and non-native plants. These landscapes have experienced the greatest depopulation since the 1990s. Due to the size of our database, choice of sites and the positioning of Japan as a depopulation vanguard for north-east Asia, this is one of the largest studies of its kind. Japan is not Chernobyl Biodiversity continued to decrease in most of the areas we studied, irrespective of population increase or decrease. Only where the population remains steady is biodiversity more stable. However, the population of these areas is ageing and will decline soon, bringing them in line with the areas already seeing biodiversity loss. Unlike in Chernobyl, where a sudden crisis caused an almost total evacuation which stimulated startling accounts of wildlife revival, Japan's population loss has developed gradually. Here, a mosaic pattern of changing land use emerges amid still-functioning communities. While most farmland remains under cultivation, some falls into disuse or abandonment, some is sold for urban development or transformed into intensively farmed landscapes. This prevents widespread natural succession of plant growth or afforestation (planting of new trees) that would enrich biodiversity. In these areas, humans are agents of ecosystem sustainability. Traditional farming and seasonal livelihood practices, such as flooding, planting and harvesting of rice fields, orchard and coppice management, and property upkeep, are important for maintaining biodiversity. So depopulation can be destructive to nature. Some species thrive, but these are often non-native ones that present other challenges, such as the drying and choking of formerly wet rice paddy fields by invasive grasses. Vacant and derelict buildings, underused infrastructure and socio-legal issues (such as complicated inheritance laws and land taxes, lack of local authority administrative capacity, and high demolition and disposal costs) all compound the problem. Even as the number of akiya (empty, disused or abandoned houses) increases to nearly 15% of the nation's housing stock, the construction of new dwellings continues remorselessly. In 2024, more than 790,000 were built, due partly to Japan's changing population distribution and household composition. Alongside these come roads, shopping malls, sports facilities, car parks and Japan's ubiquitous convenience stores. All in all, wildlife has less space and fewer niches to inhabit, despite there being fewer people. What can be done Data shows deepening depopulation in Japan and north-east Asia. Fertility rates remain low in most developed countries. Immigration provides only a short-term softer landing, as countries currently supplying migrants, such as Vietnam, are also on course for depopulation. Our research demonstrates that biodiversity recovery needs to be actively managed, especially in depopulating areas. Despite this there are only a few rewilding projects in Japan. To help these develop, local authorities could be given powers to convert disused land into locally managed community conservancies. Nature depletion is a systemic risk to global economic stability. Ecological risks, such as fish stock declines or deforestation, need better accountability from governments and corporations. Rather than spend on more infrastructure for an ever-dwindling population, for example, Japanese companies could invest in growing local natural forests for carbon credits. Depopulation is emerging as a 21st-century global megatrend. Handled well, depopulation could help reduce the world's most pressing environmental problems, including resource and energy use, emissions and waste, and nature conservation. But it needs to be actively managed for those opportunities to be realised.
