Morning Tidings

Tag: Develops

  • Australia Develops Underwater Surveillance Drone Named ‘Ghost Shark’ To Counter China (See Pics)

    Australia Develops Underwater Surveillance Drone Named ‘Ghost Shark’ To Counter China (See Pics)

    New Delhi, December 22 : Australia unveiled an underwater vehicle – UUV, which is a Dive-Large Displacement (Dive-LD) vehicle that will increase the country’s ability to counter China’s marine dominance in Indo-Pacific waters. Named as the Ghost Shark, this prototype can even offer assistance on the event of the United States intervention in the clash. Cognizant Joins Hands With Garuda Aerospace To Power Drones With Advanced Digital Tools.

    Australia Unveils Its Underwater Prototype Surveillance Sub-drone :

    (The above story first appeared on Morning Tidings on Dec 22, 2022 01:51 PM IST. For more news and updates on politics, world, sports, entertainment and lifestyle, log on to our website morningtidings.com).

  • IIT Kanpur, IISc Bengaluru Researcher Develops Technology To Turn ACs Into Anti-Microbial Air Purifiers

    IIT Kanpur, IISc Bengaluru Researcher Develops Technology To Turn ACs Into Anti-Microbial Air Purifiers

    Kanpur, Nov 18: A team of researchers from the Indian Institute of Technology (IIT), Kanpur, has developed a novel technology that turns ACs into affordable air purifiers.

    Researchers from the IIT Kanpur and IISc Bengaluru developed an anti-microbial air purification technology which was used by air filters, according to an official report. Elon Musk Called ‘Space Karen’, ‘Worthless Billionaire’ and What Not in Scrolling Messages Projected on Twitter Headquarters in San Francisco (Watch Video).

    “The novel air purification technology used in these air filters has successfully proven its efficiency towards protecting us from life-threatening viruses. This innovation is a great addition to the R&D work IIT Kanpur is involved in,” Ankush Sharma, Professor-in-charge, Innovation and Incubation, IIT Kanpur said in a statement.

    In the winter, an air conditioner equipped with this innovative air filter system from IIT Kanpur can purify the air with a 99 per cent filtration efficiency, said the report. Toyota Innova Hycross Exterior and Interior Design Leaked Prior Its Official Unveiling on 21 November, Check Details Here.

    “This indigenous revolutionary innovation has tremendous potential to succeed in the global market. This launch is indicative of technology catering to critical world problems,” Amitabha Bandyopadhyay, Co-Professor-in-charge, Innovation and Incubation, IIT Kanpur said in a statement.

    This new type of air filter has proven to restrict microbial growth and is capable of capturing PM 2.5, PM 10, dust, pollen, allergens and germs from the air while purifying, the report added.

  • Indian Govt Develops Face Recognition System To Spot Anti-Social Elements With Mask On

    New Delhi, August 18: The Indian government has developed a facial recognition system that can identify anti-social elements with or without disguise, with face masks or monkey caps on, even in low-resolution images at restricted zones as well as public places.

    The Ministry of Defence (MoD), in its latest report titled ‘AI in Defence’, revealed the Face Recognition System under Disguise (FRSD), along with other AI-based systems, chiefly developed for the Indian Army.

    ‘Face recognition in the wild’ on surveillance camera feeds is a difficult problem to solve due to the low resolution of the images captured from the cameras. This problem becomes even more challenging to solve with the added complexity of various facial disguises, crowd occlusions and varied illuminations.

    According to the MoD report, the FRSD algorithm has been trained in such a way that the face recognition system can see through several disguises like face-masks, beard, moustache, wigs, sunglasses, head-scarves, monkey caps and hats, etc. Apart from the disguises, the system also considers different lighting conditions, shadows on face, crowd occlusions, etc. Delhi International Airport Ltd Launches Beta Version of ‘DigiYatra’ App.

    “The system can be deployed at restricted/secure zones for the purpose of live video surveillance. It can also be deployed at public places to recognise anti-social elements,a the report mentioned. The algorithm can also be used by security agencies for robust face search across large repositories.

    The system is designed to ensure scalability across multiple graphics processing units (GPUs) and servers. In addition, the system is optimized to ensure maximum utilisation of GPUs and thus can support multiple surveillance cameras on a single GPU.

    The system comes with a flexible video analytics suite with a number of additional surveillance applications like people counting, geo-fencing, fire detection and collision detection, the report explained.

    Another AI-based solution called the seeker system is a self-contained, facial recognition, surveillance, monitoring, and analysis system for identification and tracking of threats for counter terrorism, continuous surveillance, and monitoring of disturbed areas.

    Additionally, the system can be employed for ensuring state-of-the-art security of critical military/civilian establishments and monitoring at border-crossing points.

    “The AI-powered analytics module enables processing of Intelligence data from various sources to identify and track movement of terrorists and anti-national elements aided by accurate information collection,” said the MoD report. The Defence industry is taking concrete steps in transforming the armed forces into one of the most advanced in the world.

    The introduction of autonomy in weapon systems, in ISR (intelligence, surveillance and reconnaissance), data management, can be a huge asset in stopping terrorism, installing counter-terrorism measures, protecting soldiers. “In fact, AI in defence can change combat and conflict at the deepest levels,” the report said.

    (The above story first appeared on Morning Tidings on Aug 18, 2022 07:04 PM IST. For more news and updates on politics, world, sports, entertainment and lifestyle, log on to our website morningtidings.com).

  • IIT Guwahati Develops Bio-Electrochemical Device, Microbial Fuel Cell To Generate Green Energy by Treating Wastewater

    Guwahati, June 1: The Indian Institute of Technology Guwahati (IIT-G) has developed a bio-electrochemical device, Microbial Fuel Cell (MFC) that can generate green energy by treating wastewater.

    The IIT-G sources on Wednesday said that the use of organic material such as waste water in MFC makes it an eco-friendly device that offers a dual benefit of bioelectricity generation and waste management.  IIT Kanpur Develops Touch-Sensitive Smartwatch for Visually Impaired

    The research, supported by a grant from the Department of Science and Technology (DST) of the Central government, was

    led by Prof. Mihir Kumar Purkait, along with his PhD student Mukesh Sharma of the Department of Chemical Engineering.

    The bio-electrochemical device converts chemical energy contained in organic substrates into electrical energy through microbes, a statement of the institute said.

    The conducted study reveals that the prepared CEMs are cheaper and perform better as compared to the several reported membranes, assisting in the separation of charges and potential development, Purkait said.

    Rapid population growth has led to rising energy demands and environmental concerns, necessitating the development of renewable and sustainable energy production techniques.

    The statement said that along with several renewable energy sources (solar energy, wind energy, tidal energy, and geothermal energy, among others), the sustainable energy sources also include the ‘Blue Energy’ sources of energy harvesting and these sources of energy have no negative impact on the environment.

    Commending the work of the research team, Prof T. G. Sitharam, Director IIT-G said that this development has provided an excellent sustainable energy source along with treating several wastewaters.

    “After scaling the process, it can be used as a source of clean energy using municipal wastewater and other such areas economically,” he said.

    The waste sugarcane bagasse has also been used in the study to improve the membrane performance, thereby preparing a valuable product from the agricultural waste.

    (The above story first appeared on Morning Tidings on Jun 01, 2022 05:31 PM IST. For more news and updates on politics, world, sports, entertainment and lifestyle, log on to our website morningtidings.com).

  • IIT Kanpur Develops Touch-Sensitive Smartwatch for Visually Impaired

    Kanpur, May 28: A team of researchers at the Indian Institute of Technology (IIT) Kanpur on Saturday announced that it has developed a novel touch-sensitive smart watch for visually impaired persons that are equipped with modern techniques.

    The watch comprises sensors like PPG (Photoplethysmography) to read health parameters such as the heart rate and SpO2.  IIT Bombay Recruitment 2022: Vacancies for 31 Engineer, Junior Engineer, and Assistant Posts Announced; Check Details Here

    An accelerometer is used to measure the step count to keep track of daily activity. All these parameters can be individually read using the haptic menu.

    “One of our objectives at IIT Kanpur has been to make innovations inclusive for all. This haptic smart watch is a significant invention in this regard, which I believe will be of great help for the blind and the visually impaired,” Abhay Karandikar, Director, IIT Kanpur, said in a statement.

    “The touch-sensitive and vibration-based features would prove to be revolutionary in giving the sense of time to the blind and the visually impaired. I congratulate the team led by Prof. Siddhartha Panda, and Vishwaraj Srivastava, for this invention,” he added.

    The invention is said to be a cost-effective smart wearable device with a touch-sensitive tactile interface that displays information using vibrations.

    The dial face consisting of tactile touch-sensitive hour markers and vibration-based output is used to read time, create an interface to select different apps, haptically recognize different apps, and to sense the numbers.

    The report said that around 49 million blind and 285 million visually impaired persons in the world face difficulty in easily interacting with devices due to the absence of tactile interface and India is home to about 20 per cent of the total blind people in the world.

    (The above story first appeared on Morning Tidings on May 28, 2022 03:36 PM IST. For more news and updates on politics, world, sports, entertainment and lifestyle, log on to our website morningtidings.com).

  • Fresh Air Clip: Researchers at Yale University Develops Air Sampler Clip Monitor To Detect COVID-19 Exposure

    New York, January 12: Masks, social distancing, proper hygiene and ventilation can help reduce the transmission of Covid-19 in public places, but even with these measures, scientists have detected airborne SARS-CoV-2 in indoor settings.

    Now, researchers from Yale University have developed a passive air sampler clip that can help assess personal exposure to SARS-CoV-2, which could be especially helpful for workers in high-risk settings, such as restaurants or health care facilities.

    The researchers developed a wearable passive air sampler, known as the Fresh Air Clip, that continually adsorbs virus-laden aerosols on a polydimethylsiloxane (PDMS) surface. Described in ACS’ Environmental Science & Technology Letters, the clip is a small, lightweight, inexpensive and wearable device that doesn’t require a power source. Omicron Variant of COVID-19 Quickly Overtaking Delta Globally in Terms of Circulation: WHO.

    Covid-19 is primarily transmitted through the inhalation of virus-laden aerosols and respiratory droplets that infected individuals expel by coughing, sneezing, speaking or breathing.

    Previously active air sampling devices helped detect airborne SARS-CoV-2 in indoor settings; however, these monitors are typically large, expensive, non-portable and require electricity. The team tested the air sampler in a rotating drum in which they generated aerosols containing a surrogate virus, a bacteriophage with similar properties to SARS-CoV-2.

    They detected the virus on the PDMS sampler using the polymerase chain reaction (PCR), showing that the device could be used to reliably estimate airborne virus concentrations. Then, the researchers distributed Fresh Air Clips to 62 volunteers, who wore the monitors for five days.

    PCR analysis of the clips detected SARS-CoV-2 RNA in five of the clips: Four were worn by restaurant servers and one by a homeless shelter staff person. The highest viral loads (more than 100 RNA copies per clip) were detected in two badges from restaurant servers. COVID-19 Treatment Update: Don’t Use Molnupiravir for Treating Coronavirus in Younger Population, Warns Dr NK Arora.

    Although the Fresh Air Clip has not yet been commercialised, these results indicate that it could serve as a semiquantitative screening tool for assessing personal exposure to SARS-CoV-2, as well as help identify high-risk areas for indoor exposure, the researchers said.

    (The above story first appeared on Morning Tidings on Jan 12, 2022 03:46 PM IST. For more news and updates on politics, world, sports, entertainment and lifestyle, log on to our website morningtidings.com).

  • Banarasi Saree To Have QR Code Woven In, IT-BHU Develops New Technique to Identity Genuineness of the Handloom Products

    Banarasi Saree To Have QR Code Woven In, IT-BHU Develops New Technique to Identity Genuineness of the Handloom Products

    Varanasi, July 25: A QR code will now be woven into handloom Banarasi sarees to affirm their genuineness. A research team at the Mechanical Engineering department (Industrial Management) of Indian Institute of Technology, Banaras Hindu University (IIT-BHU) has developed a new technique that has inbuilt, weaved QR code containing details of saree, handloom mark logo, Silk Mark and Banaras Geographical Indications (GI) logo.

    The research work was done by IIT(BHU) and Angika co-operative society for confidence-building measures using QR code and logos on sarees in the handloom industry.

    The researchers said that the inbuilt weaving of logos in the saree will authenticate the purity of handmade handloom saree. It will give confidence to customers to pick the right handloom sari and curb the misuse of the handloom and its products. Prof. Prabhash Bhardwaj said that the Varanasi handloom industry has to adopt modern approaches.

    “According to the study conducted by our research scholar, there is huge potential for incorporating IT based applications in this industry. At present, our research team came up with QR code technology and logos weaving on saree,” he said.

    The manufacturer can weave the QR code on saree with details of his own firm and manufacturing. Whenever customers want to know about a product, he has to use the scanner in his mobile to know about it. He will get all details entered in the QR code, like place of the manufacturer, date of manufacture, etc. These measures will create confidence in customers and increase sales.

    Research scholar M. Krishna Prasanna Naik, who is working on the growth of the Banaras handloom industry, said that the Banaras handloom industry is facing major issues, with marketing being one of them.

    According to his study, most customers are not aware of the difference between handloom and power-loom made saree. Only a limited number of customers know about the handloom mark and GI mark.

    His study also shows that customers are unaware of whether sellers provide real handloom marks or duplicate handloom marks with products. So, he came up with the idea of sarees having logos and QR code.

    Naik said that the fully designed saree consists of 6.50 meters in length in which 1-meter blouse pieces are included. After the sari part is completed, a part of 6-7 inches of plain fabric before the blouse is weaved. This patch contains the QR code and the other three logos.

    Incorporating these logos in this extra fabric piece, will not reduce the fabric strength and style and the looks of the saree will remain intact. Amresh Kushwaha, chairman, Angika co-operative society and Angika, a Varanasi based designer, have implemented the idea for the first time.

    They said that due to the lack of proper use of GI marks and handloom marks, customers are not sure about the originality of the saris.

    “So, we are trying to incorporate this QR code and handloom mark logs in our sarees. It will help our local and foreign customers to differentiate between handloom products and power loom products,” they said.

    (The above story first appeared on Morning Tidings on Jul 25, 2021 10:26 AM IST. For more news and updates on politics, world, sports, entertainment and lifestyle, log on to our website morningtidings.com).

  • IIT-Madras Develops Drone Algorithms to Help Study How Fire Behaves in Space Stations, Satellites

    IIT-Madras Develops Drone Algorithms to Help Study How Fire Behaves in Space Stations, Satellites

    New Delhi, June 27: Researchers at the Indian Institute of Technology (IIT) Madras have developed algorithms for drones to help study how fire behaves in space stations, shuttles and satellites. According to the team, a multirotor microgravity platform can also simulate reduced-gravity environments similar to Moon and Mars, thereby recreating those conditions on Earth for experiments.

    The team claims that at present, generating microgravity (gravity experienced is close to zero) is possible only through space stations, satellites, space shuttles, sounding rockets, and drop towers, almost all of which are beyond the reach of most educational institutions in India.

    “Another option is to use ‘free-fall’ flights on Earth to create microgravity. The free fall of sounding rockets and free fall of payloads from high altitude balloons and drop towers can also enable microgravity,” Kedarisetty Siddhardha, research scholar, Department of Aerospace Engineering, IIT Madras told PTI. Scientists Use NASA Satellite Data To Track Ocean Microplastics From Space.

    “These microgravity platforms provide stable and high-quality microgravity. However, it takes a few months to years to gain access to any of the existing microgravity platforms. Moreover, the cost to access these platforms’ services is not affordable by many educational and research institutions,” he added.

    The team has developed an algorithm that can precisely control multirotor Unmanned Aerial Vehicles (UAVs) such as quadrotors or drones. The team has published this research in reputed peer-reviewed international journals, including Aerospace Systems, Aerospace Science and Technology, and Microgravity Science and Technology.

    “These algorithms and techniques for multirotor UAV control could accurately maintain its acceleration. Although multirotor UAVs currently do not have high payload capacities, they are readily available at a low cost, making them accessible to all. We have conducted flight tests using a quadrotor and a hexrotor that we developed and found that those flights attained stable and high-quality microgravity levels,” he said.

    “The research team showed that existing quadrotors could be turned into microgravity platforms via minor design modifications and appropriate control, estimation, and automation algorithms. Furthermore, the methods and algorithms developed by us for turning multirotors into microgravity platforms are generic. So, they can be replicated easily to create multirotor microgravity platforms with high payload capacities,” Siddhardha added.

    The two multirotors that the team built and flew are the first UAVs to conduct on board experiments in microgravity. Earlier, efforts by other researchers to make UAVs as microgravity platforms did not see much success as those platforms could not attain gravity levels close to zero.

    “While most conventional microgravity platforms can simulate only microgravity, a multirotor microgravity platform can also simulate reduced-gravity environments like that on the Moon and Mars.

    “All it takes is a change in one parameter in the software that Siddhardha embeds in his multirotor that autonomously performs the manoeuvres required to achieve the level of gravity needed,” said Joel George Manathara, Assistant Professor, Department of Aerospace Engineering, IIT Madras. NASA’s Ingenuity Helicopter Completes 8th Flight on Mars.

    The team has carried out experiments on board his multirotor microgravity platforms to observe capillary action as well as the change in the shape of the liquid meniscus in microgravity.

    “These experiments undoubtedly prove that multirotors can be turned into platforms on which microgravity experiments can be carried out. Nowadays, almost every educational institution has a robotics lab or a flying club with multirotors. Thus, this research opens up the possibility of conducting experiments in microgravity at every university in India,” Siddhardha said.

  • IIT-Guwahati Develops Low-Cost Sterilization Box Based on Combined Heat, UV Radiation to Prevent COVID-19

    IIT-Guwahati Develops Low-Cost Sterilization Box Based on Combined Heat, UV Radiation to Prevent COVID-19

    New Delhi, June 16: Researchers at Indian Institute of Technology, Guwahati have developed a low-cost sterilization box to disinfect small household items by combined heat and UV radiation to prevent COVID-19. The results of their investigation have also been recently published in Environmental Research (2021).

    According to the team, the products available in the market use only UV-C irradiation facilities to disinfect items at a cost between Rs 13,000 and Rs 15,000, while the developed device has both heat and UV-C irradiation facilities to disinfect items and costs around Rs 3,500.

    “The developed device works using the combined effect of dry heat and UV-C irradiation. UV-C radiation is more effective in killing the pathogens at the surfaces and heat is effective in sterilizing the unexposed areas and pores. COVID-19 Vaccine for Children Likely To Be Registered in Russia in September.

    “The combination of UV-C radiation and heat can be used for disinfecting small items like masks, wallets, currency notes, wristwatches, and other routine items for their safe reuse or disposal to the environment,” said Lalit M Pandey, Professot at IIT’s Department of Biosciences and Bioengineering.

    “This published study suggests that the combination of heat and UV-C at 70 degrees Celsius for 15 minutes can be useful for the inactivation of the virus through the unfolding of proteins and killing of bacterial pathogens,” he added.

    The designed sterilization box comprises a wooden box, two incandescent bulbs for heating, two UV-C lamps for irradiation, one Digital Temperature Controller (DTC), and a timer.

    The box also has the provision to maintain different inside temperatures through DTC. For operational safety, a limit switch-controlled top cover is used to prevent the direct exposure of UV-C light to the human eye and skin.

    “The box was tested for the sterilization or disinfection of virus and bacteria. The novel coronavirus (SARS-CoV-2) is composed of inner nucleic acid, which is covered with surface spike glycoprotein. The unfolding and disintegration of surface glycoprotein inactivate the virus. The developed device was found to unfold the glycoprotein and completely kill bacteria present on surfaces, even in an aqueous environment. COVID-19 Vaccine Covaxin Contains Newborn Calf Serum? Centre Issues Clarification, Says ‘Twisted Facts Posted on Social Media, No Newborn Calf Serum in Final Product’.

    “Further, to access the practical applicability, the designed sterilization box was also tested for daily use items and found to effectively sterilize or disinfect the surfaces. This broadens the effectiveness of the developed prototype,” said Uday Shanker Dixit, Professor at the Department of Mechanical Engineering. The other members of the team included research scholars Nilkamal Mahanta, Varun Saxena and Priyanka Batra.

    (This is an unedited and auto-generated story from Syndicated News feed, Morning Tidings Staff may not have modified or edited the content body)

  • Battle Against COVID-19: ISRO Develops 3 Types of Ventilators ‘PRANA’, ‘VaU’ and ‘SVASTA’, to Transfer Technology

    Battle Against COVID-19: ISRO Develops 3 Types of Ventilators ‘PRANA’, ‘VaU’ and ‘SVASTA’, to Transfer Technology

    Bengaluru, Jun 7: The Indian Space Research Organisation has developed three types of ventilators, and has come forward to transfer the technology to industry for clinical usage as the country battles the second wave of COVID-19 pandemic.

    A low-cost and portable critical care ventilator, ‘PRANA’ (“Programmable Respiratory Assistance for the Needy Aid’) is based on the automated compression of an AMBU (Artificial Manual Breathing unit) bag.

    The system has a sophisticated control system that includes airway pressure sensor, flow sensor, oxygen sensor, servo actuator as well as expiration and PEEP (Positive End Expiratory Pressure) control valves, according to an interest exploration note posted on the website of Bengaluru- headquartered space agency. COVID-19 Origin: ‘Rare’ Genome Proves Coronavirus Was Made in Chinese Lab, Says US Experts.

    The clinicians can select the ventilation mode and set the required parameters through a touch screen panel and monitor various parameters like pressure, flow, tidal volume and oxygen concentration on the same screen.

    The ventilator can deliver the required flow of oxygen-air mixture to the patient’s lung at a desired rate set by the clinicians.

    It has a provision to attach external battery for backup during power failure.

    ISRO said PRANA supports both invasive and non- invasive ventilation modes and is capable of giving mandatory breaths (controlled by ventilator) as well as spontaneous breaths (controlled by the patient).

    A robust algorithm for controlled and safe ventilation of the patient is implemented which raises alarm and opens safety valves to prevent barotrauma, asphyxia and apnoea during the ventilation.

    Alarm is also raised in case of wrong or improper connection of the ventilation circuit or inadvertent disconnection of the hose or sensors.

    There are also provisions to attach bacterial viral filters at each interface to prevent cross-infection and the contamination of air.

    The ICU grade positive pressure mechanical ventilator titled ‘VaU’ (abbreviation of Ventilation assist Unit) can assist or replace the spontaneous breathing in patients under respiratory distress, ISRO said.

    VaU is based on a centrifugal blower which draws in filtered ambient air, compresses it and delivers it to the patient to achieve ventilation and can therefore operate without a compressed pneumatic source.

    Provision is also given in the ventilator to connect a high pressure oxygen source, from which oxygen is metered automatically, to achieve the desired oxygen concentration (FiO2) in the inspiratory flow.

    Microcontroller based control module in the ventilator acquires signals from an array of sensors and commands the electro-pneumatic components to effect closed loop control.

    VaU also comes with an intuitive Human Machine Interface (HMI) System running on a medical grade touch screen PC, which allows the operator to set and monitor various ventilation parameters in real time.

    A power supply unit, which can operate with 230VAC or an internal battery pack, is used to power the electro- pneumatic components, controller, and the HMI system of the ventilator.

    VaU has been configured to operate in a variety of patient/ventilator triggered invasive and non-invasive ventilation modes and has provisions to detect fault conditions and raise alarms through the HMI system to alert the operator.

    Gas-powered ventilator ‘Space Ventilator Aided System for Trauma Assistance (SVASTA)’, a basic mode for non- invasive ventilation, is well-suited for emergency use for first line treatment and as transit ventilators inside vehicles, according to ISRO.

    The basic design is simple, and the components can be easily mass produced for emergency use in pandemic like situations.

    This ventilator, which runs on compressed air, is able to perform various ventilation conditions using manual mechanical settings.

    The system is capable of pressure control ventilation (PCV) in its basic mode of operation with provision for setting different tidal volumes.

    The basic ventilator design can be re-engineered appropriately by the manufacturer to cater to various modes of ventilation with control systems, electronics, and associated software, it was stated.

    The prototype of the three ventilators developed at Thiruvananthapuram-based Vikram Sarabhai Space Centre (VSSC), a major space research centre of ISRO, has undergone in-house test & evaluation and meets various specifications.

    The responsibility of obtaining mandatory certification from approving agencies of government of India before clinical usage vests with the industry, the ISRO note said.

    ISRO said it intends to transfer the technology of these three ventilators toPSUs/ industries/ start-ups having good track record in manufacture of critical medical/ electronic equipment manufacturing.

    It invited Interested industries/ entrepreneurs to submit theirexpression of interest before June 15.