results 73-84 of 557
Public Humanities and Pedagogy in the Global South: Challenges and Directions
28/07/2023
Inventors: Dr. Geetha Bakilapadavu, Prof. Reena Cheruvalath
This paper explores ""Public Humanities and Pedagogy in the Global South,"" focusing on the challenges and directions for integrating public humanities into educational practices and societal engagement in developing regions. It examines how public humanities—an interdisciplinary field that connects humanities scholarship with public life—can address local issues, foster cultural understanding,...
This paper explores ""Public Humanities and Pedagogy in the Global South,"" focusing on the challenges and directions for integrating public humanities into educational practices and societal engagement in developing regions. It examines how public humanities—an interdisciplinary field that connects humanities scholarship with public life—can address local issues, foster cultural understanding, and contribute to social change. The study highlights specific challenges faced in the Global South, such as resource limitations, cultural diversity, and political constraints. It also proposes strategies for advancing public humanities initiatives, including community partnerships, innovative teaching methods, and policy support to enhance educational and societal impact. (Humanities & Social Sciences)
Study on Effective Recovery & Modification of Carbon Black From Waste/Scrap Tyres and its Application in the Fabrication of Membranes for Water Desalination/Purifications
28/06/2023
Inventors: Dr. S D Manjare
This paper investigates the effective recovery and modification of carbon black from waste or scrap tires and its subsequent application in the fabrication of membranes for water desalination and purification. The study focuses on methods for extracting and repurposing carbon black, a material traditionally used in tires, to create high-performance...
This paper investigates the effective recovery and modification of carbon black from waste or scrap tires and its subsequent application in the fabrication of membranes for water desalination and purification. The study focuses on methods for extracting and repurposing carbon black, a material traditionally used in tires, to create high-performance membranes for filtering and purifying water. The research includes evaluating various techniques for modifying carbon black to enhance its properties for membrane applications, such as improving filtration efficiency and durability. The goal is to develop sustainable solutions for waste management and water treatment by reusing tire waste in environmentally beneficial ways. (Chemical Engineering)
Evaluation of the Antioxidant of Pigments from Halophilic Archaea and Bacteria Obtained from Solar Salterns and Marine Regions of Goa
28/06/2023
Inventors: Dr. Judith Maria Braganca
This paper evaluates the antioxidant properties of pigments extracted from halophilic archaea and bacteria sourced from solar salterns and marine regions of Goa. The study focuses on identifying and characterizing pigments produced by these extremophiles, which thrive in high-salinity environments. By assessing their antioxidant activity, the research aims to explore...
This paper evaluates the antioxidant properties of pigments extracted from halophilic archaea and bacteria sourced from solar salterns and marine regions of Goa. The study focuses on identifying and characterizing pigments produced by these extremophiles, which thrive in high-salinity environments. By assessing their antioxidant activity, the research aims to explore their potential for use in various applications, such as natural antioxidants in food, cosmetics, or pharmaceuticals. The goal is to harness the unique properties of these pigments for health benefits and to contribute to the understanding of microbial adaptations in extreme environments. (Biological Science)
Artificial Intelligence assisted Surgical Procedure for Customized Patient-Specific Dental Implants using Cloud-Based Automated Workflow
30/05/2023
Inventors: Dr. Iniyan Thiruselvam, Prof. D. M. Kulkarni
This paper explores an "Artificial Intelligence (AI) assisted surgical procedure for customized patient-specific dental implants using a cloud-based automated workflow." It focuses on integrating AI and cloud computing technologies to enhance the precision and efficiency of dental implant procedures. The study involves developing an AI-driven system that automates the design...
This paper explores an "Artificial Intelligence (AI) assisted surgical procedure for customized patient-specific dental implants using a cloud-based automated workflow." It focuses on integrating AI and cloud computing technologies to enhance the precision and efficiency of dental implant procedures. The study involves developing an AI-driven system that automates the design and customization of dental implants based on individual patient data, with workflows managed through cloud-based platforms. This approach aims to improve the accuracy of implant placement, reduce procedural time, and ensure better outcomes by tailoring implants to the specific anatomical and functional needs of each patient. (Mechanical Engineering)
Design of Knee Unloader Braces to Improve Outcomes of Surgical Knee Procedures using a Musculoskeletal Simulation based Approach
10/04/2023
Inventors: Dr. Ganesh Bapat
This paper focuses on designing knee unloader braces to enhance outcomes of surgical knee procedures using a musculoskeletal simulation-based approach. The research involves creating and optimizing knee braces that reduce stress on the knee joint, aiming to improve post-surgical recovery and overall function. By employing musculoskeletal simulations, the study analyzes...
This paper focuses on designing knee unloader braces to enhance outcomes of surgical knee procedures using a musculoskeletal simulation-based approach. The research involves creating and optimizing knee braces that reduce stress on the knee joint, aiming to improve post-surgical recovery and overall function. By employing musculoskeletal simulations, the study analyzes how different brace designs affect joint biomechanics, load distribution, and patient comfort. The goal is to develop braces that effectively support the knee during the healing process, reduce pain, and promote better functional outcomes following knee surgery. (Mechanical Engineering)
Carving Individual learning Trajectories (CILT) by uncovering the factors Linked to Cognitive Ability
15/02/2023
Inventors: Dr. Veeky Baths
This paper investigates ""Carving Individual Learning Trajectories (CILT)"" by uncovering factors linked to cognitive ability. It focuses on understanding how cognitive abilities influence personalized learning paths for individuals. The study involves identifying and analyzing various factors that affect cognitive performance, such as intelligence, memory, and problem-solving skills, and how these...
This paper investigates ""Carving Individual Learning Trajectories (CILT)"" by uncovering factors linked to cognitive ability. It focuses on understanding how cognitive abilities influence personalized learning paths for individuals. The study involves identifying and analyzing various factors that affect cognitive performance, such as intelligence, memory, and problem-solving skills, and how these factors shape individual learning trajectories. By employing data analysis and cognitive assessment tools, the research aims to provide insights into creating tailored learning experiences that align with each individual's cognitive profile. The goal is to enhance educational outcomes and support personalized learning strategies based on cognitive capabilities. (Biological Science)
Developing a Wetland Photobioreactor Microbial Fuel Cell system for Household Wastewater Treatment (TPN 75298)
24/01/2023
Inventors: Dr. Srikanth Mutnuri
This paper focuses on developing a Wetland Photobioreactor Microbial Fuel Cell (MFC) system for household wastewater treatment. The research integrates a photobioreactor, which utilizes photosynthetic microorganisms to enhance wastewater treatment, with a microbial fuel cell, which generates electricity from microbial metabolic processes. The system aims to improve wastewater treatment efficiency...
This paper focuses on developing a Wetland Photobioreactor Microbial Fuel Cell (MFC) system for household wastewater treatment. The research integrates a photobioreactor, which utilizes photosynthetic microorganisms to enhance wastewater treatment, with a microbial fuel cell, which generates electricity from microbial metabolic processes. The system aims to improve wastewater treatment efficiency and sustainability by leveraging the combined benefits of these technologies. The study involves designing and optimizing the system, evaluating its performance in treating household wastewater, and assessing its potential for energy recovery. The goal is to create an innovative, eco-friendly solution for wastewater management that also contributes to renewable energy generation. (Biological Science)
Data And Model Reduction Using Mathematical Morphology
16/12/2022
Inventors: Dr. Aditya Challa
This paper explores data and model reduction techniques using mathematical morphology. Mathematical morphology is a theory and technique in image analysis and pattern recognition that applies set theory, topology, and other mathematical concepts to analyze and process geometric structures in data. The study focuses on using these techniques to simplify...
This paper explores data and model reduction techniques using mathematical morphology. Mathematical morphology is a theory and technique in image analysis and pattern recognition that applies set theory, topology, and other mathematical concepts to analyze and process geometric structures in data. The study focuses on using these techniques to simplify and reduce complex data sets and models while preserving essential features and relationships. It involves applying morphological operations such as dilation, erosion, opening, and closing to achieve data compression and model reduction. The goal is to enhance the efficiency and effectiveness of data processing and modeling in various applications, including image analysis, signal processing, and machine learning. (CS&IS)
Development of Miniaturized Multi Constellation Weak MBOC Signal Real -Time GNSS receiver
23/03/2023
Inventors: Dr. Nitin Sharma
This paper focuses on the development of a miniaturized, multi-constellation Global Navigation Satellite System (GNSS) receiver designed to process weak MBOC (Modified Binary Offset Carrier) signals in real-time. The research addresses the challenges of designing a compact GNSS receiver capable of handling signals from multiple satellite constellations and maintaining high...
This paper focuses on the development of a miniaturized, multi-constellation Global Navigation Satellite System (GNSS) receiver designed to process weak MBOC (Modified Binary Offset Carrier) signals in real-time. The research addresses the challenges of designing a compact GNSS receiver capable of handling signals from multiple satellite constellations and maintaining high performance in detecting and processing weak MBOC signals. The study includes innovations in receiver design, signal processing algorithms, and hardware integration to enhance the sensitivity and accuracy of the receiver. The goal is to advance GNSS technology for applications requiring precise location tracking and navigation in challenging signal environments. (EEE)
An Experimental and CFD- DEM study of spouted Fluidized Bed heat exchanger for Non-Spherical particles
01/03/2023
Inventors: Dr. Pritanshu Ranjan, Dr. Ranjit Patil
This paper presents an experimental and computational study of a spouted fluidized bed heat exchanger designed for non-spherical particles. The research combines experimental measurements with Computational Fluid Dynamics (CFD) and Discrete Element Method (DEM) simulations to analyze the performance and behavior of the heat exchanger. It focuses on understanding how...
This paper presents an experimental and computational study of a spouted fluidized bed heat exchanger designed for non-spherical particles. The research combines experimental measurements with Computational Fluid Dynamics (CFD) and Discrete Element Method (DEM) simulations to analyze the performance and behavior of the heat exchanger. It focuses on understanding how non-spherical particles affect fluid flow, heat transfer, and overall efficiency in the system. The study aims to optimize the design of spouted fluidized beds for improved heat exchange performance and better handling of non-spherical particles, which are common in industrial processes. The goal is to provide insights into enhancing the effectiveness and reliability of heat exchangers used in various applications. (Mechanical Engineering)
Development of New and Novel Nanostructured Materials
18/02/2023
Inventors: Dr. N N Ghosh, Ms. Manisha Mhalsekar
This paper focuses on the development of new and novel nanostructured materials, emphasizing the synthesis, characterization, and potential applications of these materials. It explores various methods for fabricating nanostructures, such as nanoparticles, nanotubes, and nanowires, and examines their unique properties, including enhanced mechanical, electrical, and optical characteristics. The study highlights...
This paper focuses on the development of new and novel nanostructured materials, emphasizing the synthesis, characterization, and potential applications of these materials. It explores various methods for fabricating nanostructures, such as nanoparticles, nanotubes, and nanowires, and examines their unique properties, including enhanced mechanical, electrical, and optical characteristics. The study highlights recent advancements in nanomaterial technologies and their applications in fields like electronics, medicine, and energy. The goal is to advance the understanding and utilization of nanostructured materials, opening new possibilities for innovation and technological development in various scientific and industrial domains. (Chemistry)
Impact of Indigenous S & T innovations developed by Start-ups incubated in academic institutes in India
31/01/2023
Inventors: Dr. Rajorshi Sen Gupta, Dr. Aswini Kumar Mishra
This paper examines the impact of indigenous science and technology (S&T) innovations developed by start-ups incubated in academic institutions in India. It focuses on how these innovations contribute to technological advancement, economic growth, and societal benefits. The study assesses the success stories and challenges faced by these start-ups, evaluating their...
This paper examines the impact of indigenous science and technology (S&T) innovations developed by start-ups incubated in academic institutions in India. It focuses on how these innovations contribute to technological advancement, economic growth, and societal benefits. The study assesses the success stories and challenges faced by these start-ups, evaluating their influence on various sectors such as healthcare, agriculture, and information technology. The paper also explores the role of academic incubators in fostering innovation, providing resources, and supporting entrepreneurial ventures. The goal is to understand the broader impact of these innovations on industry, academia, and the Indian economy. (Economics and Finance)
An Institute of Eminence
