results 241-252 of 557
Fine grained Reconfigurable Logic Blocks for enabling Processing-in-Memory
28/06/2023
Inventors: Chetan Kumar Vudadha
This paper discusses the development of fine-grained reconfigurable logic blocks designed to enable processing-in-memory (PIM) architectures. These logic blocks are integrated into memory systems to perform computations directly within the memory, reducing data transfer bottlenecks and improving processing efficiency. The study covers the design principles, implementation strategies, and performance evaluation...
This paper discusses the development of fine-grained reconfigurable logic blocks designed to enable processing-in-memory (PIM) architectures. These logic blocks are integrated into memory systems to perform computations directly within the memory, reducing data transfer bottlenecks and improving processing efficiency. The study covers the design principles, implementation strategies, and performance evaluation of these reconfigurable logic blocks. The goal is to enhance computational speed and energy efficiency by leveraging PIM technology, making it a promising solution for data-intensive applications and future computing needs. (EEE)
Technologies for Urban Transit to Enhance Mobility and Safe Accessibility
25/05/2023
Inventors: Prasanta Kumar Sahu
This paper reviews various technologies aimed at enhancing urban transit systems to improve mobility and safety. It covers advancements in smart transportation technologies, such as real-time tracking, automated fare collection, and intelligent traffic management systems. Additionally, the study explores innovations in vehicle design, including electric and autonomous vehicles, and their...
This paper reviews various technologies aimed at enhancing urban transit systems to improve mobility and safety. It covers advancements in smart transportation technologies, such as real-time tracking, automated fare collection, and intelligent traffic management systems. Additionally, the study explores innovations in vehicle design, including electric and autonomous vehicles, and their integration into existing transit networks. The goal is to provide a comprehensive overview of how these technologies can optimize transit efficiency, increase accessibility for all users, and ensure safer travel experiences in urban environments. (Civil Engineering)
The Co-Benefits of Expanding Water Supply in Urban India: Evidence From a Quasi-experiment
25/05/2023
Inventors: Rishi Kumar, Vastav Ratra
This paper examines the co-benefits of expanding water supply systems in urban India through evidence obtained from a quasi-experiment. It analyzes the impacts of improved water supply infrastructure on various socio-economic and environmental outcomes. Key findings include enhancements in public health, economic productivity, and quality of life, alongside reductions in...
This paper examines the co-benefits of expanding water supply systems in urban India through evidence obtained from a quasi-experiment. It analyzes the impacts of improved water supply infrastructure on various socio-economic and environmental outcomes. Key findings include enhancements in public health, economic productivity, and quality of life, alongside reductions in waterborne diseases and environmental stress. The study provides empirical evidence supporting the broader advantages of water supply expansion, offering insights into how such investments can contribute to sustainable urban development and overall well-being in rapidly growing cities. (Economics and Finance)
Development of Sensors for Studying Changes in Zinc Homeostasis in Different Cellular Events
04/07/2023
Inventors: Anupam Bhattacharya, Onkar Kulkarni
This paper explores the development of sensors designed to study changes in zinc homeostasis during various cellular events. The research focuses on creating advanced sensors that can accurately monitor zinc levels and fluctuations within cells, which are crucial for understanding cellular processes and diseases. The study includes the design, calibration,...
This paper explores the development of sensors designed to study changes in zinc homeostasis during various cellular events. The research focuses on creating advanced sensors that can accurately monitor zinc levels and fluctuations within cells, which are crucial for understanding cellular processes and diseases. The study includes the design, calibration, and validation of these sensors, as well as their application in tracking zinc dynamics in real-time. The goal is to provide valuable insights into zinc's role in cellular functions, potentially contributing to advancements in biomedical research and diagnostics. (Chemistry)
Development, Optimization and Characterization of Anticancer Drug-Loaded Stable Liposomal Formulation
03/07/2023
Inventors: Akash Chaurasiya
This paper details the development, optimization, and characterization of a stable liposomal formulation for loading and delivering anticancer drugs. The study focuses on creating liposomes that effectively encapsulate the drug, enhancing stability, controlled release, and targeting capabilities. Key aspects include formulation optimization to achieve desired size, stability, and drug release...
This paper details the development, optimization, and characterization of a stable liposomal formulation for loading and delivering anticancer drugs. The study focuses on creating liposomes that effectively encapsulate the drug, enhancing stability, controlled release, and targeting capabilities. Key aspects include formulation optimization to achieve desired size, stability, and drug release profiles, as well as extensive characterization using techniques such as particle size analysis, encapsulation efficiency, and in vitro release studies. The objective is to improve the efficacy and safety of anticancer treatments by leveraging the advantages of liposomal drug delivery systems. (Pharmacy)
Development, Optimization and Evaluation of Stable Multidose Injectable Formulation of Anticancer Drug
21/06/2023
Inventors: Akash Chaurasiya
This paper focuses on the development, optimization, and evaluation of a stable multidose injectable formulation for an anticancer drug. The study addresses the challenges of maintaining drug stability and efficacy over multiple doses. It includes the formulation process, optimization of components to ensure stability, and thorough evaluation of the formulation's...
This paper focuses on the development, optimization, and evaluation of a stable multidose injectable formulation for an anticancer drug. The study addresses the challenges of maintaining drug stability and efficacy over multiple doses. It includes the formulation process, optimization of components to ensure stability, and thorough evaluation of the formulation's performance through various stability and efficacy tests. The goal is to create a reliable, long-lasting injectable option that improves treatment convenience and efficacy for cancer patients, potentially reducing the frequency of administration and enhancing overall therapeutic outcomes. (Pharmacy)
Development of a Wound Dressing Material with a Simultaneous Dual Function of Antibacterial and Visible Colorimetric Detection of Infection
14/06/2023
Inventors: Jayati Ray Dutta, Ramakrishnan Ganesan
This paper presents the development of a wound dressing material that combines dual functions: antibacterial activity and visible colorimetric detection of infection. The dressing incorporates antimicrobial agents to prevent bacterial growth and a color-changing indicator to signal the presence of infection. The study details the material composition, design, and testing...
This paper presents the development of a wound dressing material that combines dual functions: antibacterial activity and visible colorimetric detection of infection. The dressing incorporates antimicrobial agents to prevent bacterial growth and a color-changing indicator to signal the presence of infection. The study details the material composition, design, and testing methods used to achieve these functionalities. By providing both protective and diagnostic features, the dressing aims to enhance wound care, improve patient outcomes, and facilitate timely medical intervention (Biological Science)
Development of an Efficient Solar Distillation Apparatus
19/05/2023
Inventors: Sandip S Deshmukh
This paper focuses on the development of an efficient solar distillation apparatus designed to enhance the effectiveness of solar water purification. The study explores innovative design features, materials, and technologies to optimize the distillation process, improve energy utilization, and increase water output. Key aspects include the integration of advanced solar...
This paper focuses on the development of an efficient solar distillation apparatus designed to enhance the effectiveness of solar water purification. The study explores innovative design features, materials, and technologies to optimize the distillation process, improve energy utilization, and increase water output. Key aspects include the integration of advanced solar collectors, heat exchangers, and distillation units. The goal is to provide a more efficient and cost-effective solution for producing clean water using solar energy, addressing challenges related to water scarcity and sustainability. (Mechanical Engineering)
Development of a Novel Cost Effective and Smart Building Material for Indoor Thermal Comfort and Enhanced Energy Storage
09/05/2023
Inventors: Parameshwaran R, Vinayaka Ram
This paper introduces the development of a novel, cost-effective smart building material designed to improve indoor thermal comfort and enhance energy storage. The material integrates advanced properties to regulate indoor temperatures and store thermal energy efficiently. The study encompasses the material's composition, production process, and performance evaluation. By optimizing thermal...
This paper introduces the development of a novel, cost-effective smart building material designed to improve indoor thermal comfort and enhance energy storage. The material integrates advanced properties to regulate indoor temperatures and store thermal energy efficiently. The study encompasses the material's composition, production process, and performance evaluation. By optimizing thermal insulation and energy storage capabilities, the material aims to provide an affordable solution for improving building energy efficiency and occupant comfort, contributing to more sustainable and energy-efficient building practices. (Mechanical Engineering)
Design and Development of Flexible Thermoelectric Devices (TEDs) for Various Applications
01/05/2023
Inventors: Sanket Goel, Satish Kumar Dubey, Arshad Javed
This paper explores the design and development of flexible thermoelectric devices (TEDs) for a range of applications. It focuses on creating TEDs that can adapt to various surfaces and forms, offering versatility in energy harvesting and temperature management. The study covers materials selection, device architecture, and fabrication techniques to enhance...
This paper explores the design and development of flexible thermoelectric devices (TEDs) for a range of applications. It focuses on creating TEDs that can adapt to various surfaces and forms, offering versatility in energy harvesting and temperature management. The study covers materials selection, device architecture, and fabrication techniques to enhance flexibility and performance. Applications include wearable electronics, portable power generation, and temperature regulation in diverse environments. The goal is to advance the practical use of TEDs by improving their flexibility, efficiency, and integration into different technologies. (EEE)
Development of Performance Grade (PG) Bituminous Binder Classification system for India
28/03/2023
Inventors: Sridhar Raju, Akshay Gundla
This paper focuses on the development of a Performance Grade (PG) bituminous binder classification system tailored for India. The system aims to enhance the quality and durability of bituminous binders used in road construction by classifying them based on their performance characteristics under various environmental and loading conditions. The study...
This paper focuses on the development of a Performance Grade (PG) bituminous binder classification system tailored for India. The system aims to enhance the quality and durability of bituminous binders used in road construction by classifying them based on their performance characteristics under various environmental and loading conditions. The study includes the establishment of performance criteria, testing methodologies, and classification standards specific to Indian climatic and traffic conditions. The proposed system seeks to improve road infrastructure quality and longevity by ensuring the use of appropriate binder grades for different applications. (Civil Engineering)
Design And Development of Portable Acidosis Kit for the Rapid,Trace-Level Detection of Ketone Bodies in Biological Samples
10/03/2023
Inventors: Nilanjan Dey, Balaram Ghosh
This paper presents the design and development of a portable acidosis kit for the rapid and trace-level detection of ketone bodies in biological samples. The kit is designed to be user-friendly and suitable for on-site testing, enabling quick assessment of ketone levels which are critical for managing conditions like diabetic...
This paper presents the design and development of a portable acidosis kit for the rapid and trace-level detection of ketone bodies in biological samples. The kit is designed to be user-friendly and suitable for on-site testing, enabling quick assessment of ketone levels which are critical for managing conditions like diabetic ketoacidosis. The study covers the development of the detection technology, including the choice of materials, sensor integration, and validation of performance. The goal is to provide a reliable, portable solution for real-time monitoring, improving patient management and response in clinical or home settings. (Chemistry)
An Institute of Eminence
