results 97-108 of 557
Development Of Underwater Acoustic Sensor Network For Monitoring Of Coral Reef
25/08/2022
Inventors: Dr. Sarang C Dhongdi, Dr. K R Anupama
This paper focuses on the development of an underwater acoustic sensor network designed for monitoring coral reefs. The network employs a series of acoustic sensors deployed in marine environments to collect data on various aspects of coral reef ecosystems, such as biodiversity, water quality, and physical disturbances. The study involves...
This paper focuses on the development of an underwater acoustic sensor network designed for monitoring coral reefs. The network employs a series of acoustic sensors deployed in marine environments to collect data on various aspects of coral reef ecosystems, such as biodiversity, water quality, and physical disturbances. The study involves designing the sensor network for optimal data collection, transmission, and analysis, addressing challenges related to underwater communication and sensor calibration. It includes evaluating the network's effectiveness in providing real-time monitoring and insights into reef health. The goal is to support coral reef conservation efforts by offering a robust and reliable tool for environmental monitoring and management. (EEE)
Mobile/Web And AR-VR Based Cognition Tracking Analysis And Rehabilitation For Healthy And Cognitively Impaired People
25/08/2022
Inventors: Dr. Veeky Baths
This paper explores mobile/web and AR-VR-based technologies for cognition tracking and rehabilitation for both healthy and cognitively impaired individuals. It focuses on using mobile and web applications, along with augmented reality (AR) and virtual reality (VR) platforms, to monitor cognitive functions and provide targeted rehabilitation exercises. The study includes the...
This paper explores mobile/web and AR-VR-based technologies for cognition tracking and rehabilitation for both healthy and cognitively impaired individuals. It focuses on using mobile and web applications, along with augmented reality (AR) and virtual reality (VR) platforms, to monitor cognitive functions and provide targeted rehabilitation exercises. The study includes the development and integration of these technologies to create interactive, engaging tools for cognitive assessment and therapy. It evaluates the effectiveness of these tools in improving cognitive health, tracking progress, and offering personalized rehabilitation programs. The goal is to enhance cognitive health management through innovative, accessible, and user-friendly digital solutions. (Biological Science)
A Scalable Cloud And Edge Based Framework To Ease The Deployment Of IoT Based Applications
25/08/2022
Inventors: Dr. Vinayak Naik, Dr. Arnab Kumar Paul
This paper presents a scalable cloud and edge-based framework designed to simplify the deployment of IoT-based applications. The framework aims to address challenges related to scalability, data processing, and real-time analytics in IoT systems. It integrates cloud computing for centralized data management and edge computing for localized data processing, enabling...
This paper presents a scalable cloud and edge-based framework designed to simplify the deployment of IoT-based applications. The framework aims to address challenges related to scalability, data processing, and real-time analytics in IoT systems. It integrates cloud computing for centralized data management and edge computing for localized data processing, enabling efficient handling of large-scale IoT deployments. The study includes the design and implementation of the framework, evaluating its performance in terms of scalability, latency, and resource utilization. The goal is to provide a robust, flexible solution that streamlines the deployment and management of IoT applications, enhancing their efficiency and effectiveness across various use cases. (CS&IS)
Isolation Of White Blood Cells In A Microfluidic Device With Applications To Point-Of-Care Diagnostics
25/08/2022
Inventors: Dr. Siddhartha Tripathi, Dr. Sunil Bhand
This paper focuses on the isolation of white blood cells (WBCs) using a microfluidic device, with applications in point-of-care diagnostics. The microfluidic device is designed to efficiently separate WBCs from blood samples based on their physical and biochemical properties. The study involves optimizing the device's design and operational parameters to...
This paper focuses on the isolation of white blood cells (WBCs) using a microfluidic device, with applications in point-of-care diagnostics. The microfluidic device is designed to efficiently separate WBCs from blood samples based on their physical and biochemical properties. The study involves optimizing the device's design and operational parameters to enhance the purity and yield of isolated WBCs. The paper also explores the integration of this technology with diagnostic assays, enabling rapid and on-site testing for various health conditions. The goal is to advance point-of-care diagnostics by providing a compact, efficient, and reliable tool for WBC isolation and subsequent analysis. (Mechanical Engineering)
A Thin Film Transistor Biosensor For Detection Of Endocrine Disruptive Compounds
25/08/2022
Inventors: Dr. Abhijit Pethe, Dr. Sunil Bhand
This paper explores the development of a thin-film transistor (TFT) biosensor for detecting endocrine-disrupting compounds (EDCs). EDCs are chemicals that interfere with endocrine systems, potentially causing adverse health effects. The TFT biosensor uses a thin-film transistor structure to integrate sensing elements that specifically recognize and bind to EDCs. The study...
This paper explores the development of a thin-film transistor (TFT) biosensor for detecting endocrine-disrupting compounds (EDCs). EDCs are chemicals that interfere with endocrine systems, potentially causing adverse health effects. The TFT biosensor uses a thin-film transistor structure to integrate sensing elements that specifically recognize and bind to EDCs. The study includes the design and fabrication of the biosensor, optimizing its sensitivity and selectivity for various EDCs, and evaluating its performance in detecting these compounds at low concentrations. The goal is to provide a portable, cost-effective, and reliable tool for monitoring environmental and health-related impacts of endocrine disruptors. (EEE)
Novel Field Biosensor For Detection Of Urea In Agricultural Runoff Water
25/08/2022
Inventors: Dr. Sunil Bhand, Dr. Gautam Bacher
This paper presents a novel field biosensor designed for the detection of urea in agricultural runoff water. Urea is a common nitrogenous compound used in fertilizers, and its presence in runoff water can lead to environmental issues such as eutrophication. The biosensor is developed to provide on-site, real-time monitoring of...
This paper presents a novel field biosensor designed for the detection of urea in agricultural runoff water. Urea is a common nitrogenous compound used in fertilizers, and its presence in runoff water can lead to environmental issues such as eutrophication. The biosensor is developed to provide on-site, real-time monitoring of urea levels in water. It employs biological sensing elements, such as enzymes or microorganisms, that specifically interact with urea, coupled with a detection system that converts this interaction into a measurable signal. The study includes the design, optimization, and field testing of the biosensor, aiming to improve water quality management in agricultural settings and mitigate environmental impacts. (Chemistry)
Technology Of Detection And Analysis Of Aflatoxin M1 In Milk And Milk Products
25/08/2022
Inventors: Dr. Sunil Bhand, Dr. Gautam Bacher
This paper explores technologies for the detection and analysis of aflatoxin M1 in milk and dairy products. Aflatoxin M1 is a mycotoxin produced by the metabolism of aflatoxin B1 in animals, and its presence in milk poses health risks to consumers. The study covers various analytical methods used to identify...
This paper explores technologies for the detection and analysis of aflatoxin M1 in milk and dairy products. Aflatoxin M1 is a mycotoxin produced by the metabolism of aflatoxin B1 in animals, and its presence in milk poses health risks to consumers. The study covers various analytical methods used to identify and quantify aflatoxin M1, including immunoassays, chromatography, and spectroscopy. It involves evaluating the effectiveness of these methods in terms of sensitivity, accuracy, and reliability. The research aims to enhance detection technologies and provide guidelines for ensuring the safety of milk and dairy products, contributing to food safety and public health. (Chemistry)
Biosensor Platform For Detection Of Aflatoxin B1 In Groundnut
25/08/2022
Inventors: Dr. Sunil Bhand, Dr. Gautam Bacher
This paper focuses on the development of a biosensor platform for detecting aflatoxin B1 in groundnuts. Aflatoxin B1 is a potent mycotoxin produced by certain fungi, and its presence in food, particularly groundnuts, poses significant health risks. The biosensor platform is designed to provide a rapid, sensitive, and specific detection...
This paper focuses on the development of a biosensor platform for detecting aflatoxin B1 in groundnuts. Aflatoxin B1 is a potent mycotoxin produced by certain fungi, and its presence in food, particularly groundnuts, poses significant health risks. The biosensor platform is designed to provide a rapid, sensitive, and specific detection method for this toxin. The study involves developing the biosensor with appropriate recognition elements, such as antibodies or aptamers, that specifically bind to aflatoxin B1. It includes optimizing the biosensor's performance, including sensitivity, specificity, and response time. The goal is to offer an effective tool for food safety testing and ensuring the quality of groundnuts in the food supply chain. (Chemistry)
A Novel Transistor Based Biosensor For Analysis Of BPS In Water
25/08/2022
Inventors: Dr. Gautam Bacher, Dr. Sunil Bhand
This paper presents a novel transistor-based biosensor designed for the analysis of bisphenol S (BPS) in water. BPS is a chemical used as a substitute for bisphenol A (BPA) in various products and is a concern due to its potential environmental and health impacts. The biosensor utilizes a transistor-based sensing...
This paper presents a novel transistor-based biosensor designed for the analysis of bisphenol S (BPS) in water. BPS is a chemical used as a substitute for bisphenol A (BPA) in various products and is a concern due to its potential environmental and health impacts. The biosensor utilizes a transistor-based sensing mechanism to detect low concentrations of BPS with high sensitivity and specificity. The study involves the development of the biosensor's sensing materials, optimization of its performance parameters, and testing its efficacy in real-world water samples. The goal is to provide an effective and reliable tool for monitoring BPS contamination in water, contributing to environmental safety and public health. (EEE)
Development Of Solar Powered Cloud Based IoT Device For Agriculture Application
25/08/2022
Inventors: Dr. Nitin Sharma, Dr. Sunil Bhand
This paper focuses on developing a solar-powered cloud-based IoT device specifically designed for agricultural applications. The device integrates solar energy to ensure continuous operation in remote farming areas and uses IoT technology to monitor and manage agricultural conditions. It involves designing the device for efficient energy use, robust data collection,...
This paper focuses on developing a solar-powered cloud-based IoT device specifically designed for agricultural applications. The device integrates solar energy to ensure continuous operation in remote farming areas and uses IoT technology to monitor and manage agricultural conditions. It involves designing the device for efficient energy use, robust data collection, and real-time cloud-based analytics. The system aims to track various parameters such as soil moisture, temperature, and crop health, providing actionable insights to farmers. The research includes hardware development, software integration, and field testing to assess the device’s performance and effectiveness in improving agricultural productivity and resource management. (EEE)
De-Novo Designed peptides Scavenge SARS CoV2 Spike protein
25/08/2022
Inventors: Dr. Samit Chattopadhyay, Dr. Subhrangsu Chatterjee
This paper investigates the design of de novo peptides that can scavenge the SARS-CoV-2 spike protein. The research involves creating novel peptides through de novo design methods to target and neutralize the spike protein, which is crucial for the virus's entry into host cells. The study focuses on optimizing peptide...
This paper investigates the design of de novo peptides that can scavenge the SARS-CoV-2 spike protein. The research involves creating novel peptides through de novo design methods to target and neutralize the spike protein, which is crucial for the virus's entry into host cells. The study focuses on optimizing peptide sequences for high affinity and specificity to the spike protein. It includes evaluating the binding efficacy of these peptides, their potential as therapeutic agents, and their effectiveness in disrupting the virus-host interaction. The goal is to develop peptide-based interventions that could contribute to antiviral therapies and enhance the understanding of protein-targeting strategies against SARS-CoV-2. (Biological Science)
Quick Detection Of Oral Cancer Using Metabolite Markers: Small Molecules Interaction With Anticancer Activities For Oral Cancer
25/08/2022
Inventors: Dr. Samit Chattopadhyay
1.Dr. Partha Chakrabarty Scientist CSIR -IICB Kolkata
2. Dr. Srivan Chandrasekhar Secertary DST & Former director CSIR-IICT Hyderabad
3. Prof. Angshuman Sarkar, Professor, BITS Pilani Goa campus
4. Prof. Sanket Goel, Professor, BITS -Pilani Hyderabad campsu"
This paper focuses on the quick detection of oral cancer using metabolite markers and explores small molecules with anticancer activities. The study aims to identify specific metabolites associated with oral cancer that can serve as biomarkers for early and rapid diagnosis. It involves examining interactions between small molecules and these...
This paper focuses on the quick detection of oral cancer using metabolite markers and explores small molecules with anticancer activities. The study aims to identify specific metabolites associated with oral cancer that can serve as biomarkers for early and rapid diagnosis. It involves examining interactions between small molecules and these metabolites to assess their potential for anticancer effects. By profiling metabolic changes and understanding the molecular interactions, the research seeks to develop a reliable diagnostic method for oral cancer. The goal is to enhance early detection, improve treatment outcomes, and contribute to personalized cancer therapy through targeted metabolite-based diagnostics. (Biological Science)
An Institute of Eminence
