results 157-168 of 557
Design and Development of RF & Microwave Devices
01/04/2024
Inventors: Harish V Dixit
The design and development of RF (Radio Frequency) and microwave devices involve creating high-performance electronic components for applications like telecommunications, radar systems, and wireless networks. This process includes selecting suitable components, designing circuits for optimal performance, ensuring signal integrity in PCB layout, shielding for EMI reduction, thorough testing using specialized...
The design and development of RF (Radio Frequency) and microwave devices involve creating high-performance electronic components for applications like telecommunications, radar systems, and wireless networks. This process includes selecting suitable components, designing circuits for optimal performance, ensuring signal integrity in PCB layout, shielding for EMI reduction, thorough testing using specialized equipment, and prototyping for production. It requires expertise in electromagnetics, RF circuit design, and microwave engineering to achieve efficient and reliable devices that meet stringent performance criteria in modern communication and electronic systems. (EEE)
Multi-Functional Fiber Reinforced Bendable Pavement Quality Concrete (MFB-PQC) with Recycled Coarse Aggregates and Foundry Waste Sand for Rigid Pavements
20/03/2024
Inventors: V Vinayaka Ram, R Parameshwaran
The research focuses on developing Multi-functional Fiber Reinforced Bendable Pavement Quality Concrete (MFB-PQC) incorporating recycled coarse aggregates and foundry waste sand. This innovative concrete is designed for rigid pavements, offering enhanced performance and sustainability.
MFB-PQC integrates fibers to improve toughness and flexibility, reducing cracking and enhancing durability under traffic loads. The...
The research focuses on developing Multi-functional Fiber Reinforced Bendable Pavement Quality Concrete (MFB-PQC) incorporating recycled coarse aggregates and foundry waste sand. This innovative concrete is designed for rigid pavements, offering enhanced performance and sustainability.
MFB-PQC integrates fibers to improve toughness and flexibility, reducing cracking and enhancing durability under traffic loads. The use of recycled coarse aggregates and foundry waste sand aims to reduce environmental impact by reusing industrial by-products. These materials are optimized to meet pavement quality standards, ensuring structural integrity and longevity.
The research aims to demonstrate that MFB-PQC not only meets but exceeds the requirements for rigid pavements, providing a cost-effective and environmentally friendly solution. This approach aligns with sustainable construction practices, promoting the use of recycled materials and innovative technologies in infrastructure development. (Civil Engineering)
Ship-building in Folklore: Orality and Memory in Thottam Pattu of Marakkalathamma
23/03/2024
Inventors: Maya Vinai, Tony Sebastian
Ship-building in folklore, as seen in the Thottam Pattu of Marakkalathamma, explores the intersection of oral tradition, memory, and cultural heritage. Thottam Pattu is a traditional form of folk song prevalent among the Marakkalathamma community, known for its rich narrative and poetic expression. Within this context, the songs recount the...
Ship-building in folklore, as seen in the Thottam Pattu of Marakkalathamma, explores the intersection of oral tradition, memory, and cultural heritage. Thottam Pattu is a traditional form of folk song prevalent among the Marakkalathamma community, known for its rich narrative and poetic expression. Within this context, the songs recount the craftsmanship and rituals associated with ship-building, reflecting the community's historical and cultural relationship with maritime activities.
The study delves into how oral traditions preserve and transmit knowledge of ship-building techniques, materials, and rituals across generations. It examines how these narratives shape cultural identity and collective memory, offering insights into the socio-economic significance of maritime heritage in coastal communities.
By documenting and analyzing Thottam Pattu, researchers gain a deeper understanding of how folklore serves as a repository of indigenous knowledge and traditions, highlighting the importance of oral history in preserving maritime heritage and cultural practices. (Humanities & Social Sciences)
Synergizing Interdisciplinary Research through Enhancing the Research Office for Advanced Discovery & Innovation at BITS Advanced Discovery & Innovation at BITS Pilani Hyderabad Campus
20/03/2024
Inventors: Surender Mohan
The initiative aims to synergize interdisciplinary research by enhancing the Research Office for Advanced Discovery & Innovation at BITS Pilani Hyderabad Campus. This effort focuses on fostering collaboration across various disciplines to promote innovation and discovery. By strengthening the research infrastructure and resources, the program aims to support faculty and...
The initiative aims to synergize interdisciplinary research by enhancing the Research Office for Advanced Discovery & Innovation at BITS Pilani Hyderabad Campus. This effort focuses on fostering collaboration across various disciplines to promote innovation and discovery. By strengthening the research infrastructure and resources, the program aims to support faculty and student researchers in conducting impactful interdisciplinary studies. This includes facilitating partnerships between different departments, encouraging cross-disciplinary projects, and providing resources for advanced research techniques and technologies. Ultimately, the initiative seeks to elevate BITS Pilani Hyderabad as a hub for cutting-edge research, driving forward innovative solutions and contributing to academic and societal advancement. (EEE)
Smart Transient Electronics For Sensor Applications With Electronic Waste Pre-Determined Device Lifetime
13/03/2024
Inventors: Parikshit Sahatiya and ChanaSekhar Reddy Kolli
The concept of ""Smart Transient Electronics"" involves developing sensor applications with electronic devices designed to have a predetermined lifetime, contributing to electronic waste reduction. These transient electronics are engineered to function effectively for a specific duration and then degrade or dissolve safely after their intended use.
In sensor applications, such devices...
The concept of ""Smart Transient Electronics"" involves developing sensor applications with electronic devices designed to have a predetermined lifetime, contributing to electronic waste reduction. These transient electronics are engineered to function effectively for a specific duration and then degrade or dissolve safely after their intended use.
In sensor applications, such devices can be tailored to monitor environmental conditions, health metrics, or industrial processes for a finite period. The devices may incorporate biodegradable or bioresorbable materials, ensuring minimal environmental impact once their operational lifespan ends.
This approach addresses sustainability concerns by reducing electronic waste accumulation, aligning with the principles of circular economy and responsible technology usage. It promotes innovation in sensor technology while mitigating the environmental footprint associated with traditional electronics disposal. (EEE)
Development Of Metal-Organic Polymeric Nanostructure-Based Indicative Electrochromic Supercapattery: An Energy Storage Smart Window
15/03/2024
Inventors: Chanchal Chakraborty
The research focuses on developing a metal-organic polymeric nanostructure-based indicative electrochromic supercapattery, which functions as an energy storage smart window. This innovative technology integrates electrochromic materials with supercapacitor capabilities, enabling the window to dynamically change its opacity based on external light conditions while simultaneously storing and supplying electrical energy.
The metal-organic...
The research focuses on developing a metal-organic polymeric nanostructure-based indicative electrochromic supercapattery, which functions as an energy storage smart window. This innovative technology integrates electrochromic materials with supercapacitor capabilities, enabling the window to dynamically change its opacity based on external light conditions while simultaneously storing and supplying electrical energy.
The metal-organic polymeric nanostructures serve as active materials that undergo reversible color changes (electrochromism) in response to applied voltage, allowing the window to modulate its transparency. Additionally, these nanostructures store electrical energy efficiently, functioning as a supercapacitor to power electronic devices or store energy harvested from the environment.
This dual-functionality device represents a significant advancement in smart window technology, offering potential applications in energy-efficient buildings, automotive industries, and wearable electronics, where adaptive light control and energy storage are critical. (Chemistry)
Differential Geometry, Fluid Mechanics And Membrane Transport
11/02/2021
Inventors: Rickmoy Samanta
The intersection of differential geometry, fluid mechanics, and membrane transport explores how geometric principles influence the behavior of fluids and solutes across biological membranes. This interdisciplinary field investigates how curvature, topology, and other geometric properties affect the transport processes at the molecular and cellular levels. By applying differential geometric concepts...
The intersection of differential geometry, fluid mechanics, and membrane transport explores how geometric principles influence the behavior of fluids and solutes across biological membranes. This interdisciplinary field investigates how curvature, topology, and other geometric properties affect the transport processes at the molecular and cellular levels. By applying differential geometric concepts to fluid dynamics and membrane biology, researchers aim to understand phenomena such as fluid flow patterns, membrane deformation, and transport kinetics more deeply. This integration helps elucidate fundamental principles governing biological processes and inspires new approaches for biomedical and engineering applications, including drug delivery and biomaterial design. (Physics)
Probing into the Molecular Mechanisms of “Conditional Pathogenesis”- A Phenomenon Where Beneficial Soil Microbes Turn Pathogenic to Plants, under Adverse Environmental Conditions
19/02/2024
Inventors: Sridev Mohapatra
This research delves into the molecular mechanisms underlying ""conditional pathogenesis,"" a phenomenon where normally beneficial soil microbes can become pathogenic to plants under adverse environmental conditions. The study aims to uncover how environmental stressors trigger genetic and biochemical changes in these microbes, leading to their transition from benign symbionts to...
This research delves into the molecular mechanisms underlying ""conditional pathogenesis,"" a phenomenon where normally beneficial soil microbes can become pathogenic to plants under adverse environmental conditions. The study aims to uncover how environmental stressors trigger genetic and biochemical changes in these microbes, leading to their transition from benign symbionts to harmful pathogens. By investigating the molecular pathways involved, including gene expression, protein interactions, and metabolic responses, the research seeks to elucidate the factors that drive this switch in microbial behavior. Understanding these mechanisms is crucial for developing strategies to mitigate plant diseases caused by soil microbes and improve agricultural resilience in changing environmental conditions. (Biological Science)
SERB SSY Conference
23/01/2024
Inventors: Pradyumn Kumar Sahoo
The SERB SSY Conference refers to a conference funded under the Science and Engineering Research Board's (SERB) Scheme for Young Scientists (SSY). This scheme supports young researchers in India by providing financial assistance to organize conferences, workshops, and symposia in emerging and interdisciplinary areas of science and engineering. The SERB...
The SERB SSY Conference refers to a conference funded under the Science and Engineering Research Board's (SERB) Scheme for Young Scientists (SSY). This scheme supports young researchers in India by providing financial assistance to organize conferences, workshops, and symposia in emerging and interdisciplinary areas of science and engineering. The SERB SSY Conference aims to promote scientific exchange, collaboration, and the dissemination of research among early-career scientists and professionals. It provides a platform for young scientists to showcase their work, network with peers and established researchers, and contribute to advancements in their respective fields. (Mathematics)
Shastri Conference and Lecture Series Grant (SCLSG)
22/11/2023
Inventors: Shreya Biswas
The Shastri Conference and Lecture Series Grant (SCLSG) is a funding initiative aimed at promoting scholarly exchange and collaboration between institutions in India and Canada. It supports conferences, workshops, and lecture series that facilitate dialogue and knowledge sharing across various academic disciplines. The grant encourages partnerships between Indian and Canadian...
The Shastri Conference and Lecture Series Grant (SCLSG) is a funding initiative aimed at promoting scholarly exchange and collaboration between institutions in India and Canada. It supports conferences, workshops, and lecture series that facilitate dialogue and knowledge sharing across various academic disciplines. The grant encourages partnerships between Indian and Canadian universities, fostering academic cooperation, research initiatives, and cultural exchanges. Through SCLSG, institutions can organize events that enhance academic discourse, promote international understanding, and advance collaborative research efforts between the two countries. (Economics and Finance)
Development Of A Light-Weight Scheduling Mechanism For The Lora MAC
16/02/2024
Inventors: Nikumani Choudhury
The research focuses on developing a lightweight scheduling mechanism for the LoRa (Long Range) Medium Access Control (MAC) protocol. LoRa is used in low-power, wide-area networks for Internet of Things (IoT) applications, and an efficient MAC protocol is crucial for managing network access and optimizing data transmission. The study aims...
The research focuses on developing a lightweight scheduling mechanism for the LoRa (Long Range) Medium Access Control (MAC) protocol. LoRa is used in low-power, wide-area networks for Internet of Things (IoT) applications, and an efficient MAC protocol is crucial for managing network access and optimizing data transmission. The study aims to create a scheduling mechanism that is both resource-efficient and effective in handling data traffic, minimizing latency, and improving network performance. By refining the MAC layer, the research seeks to enhance the reliability and efficiency of LoRa networks, particularly in environments with constrained resources and high device densities. (CS&IS)
Design and Development of a Smart Integrated Sensor-Transducer-Actuator System for Space Applications
21/02/2024
Inventors: Brajesh Kumar P, Sudha Raadhika, Sabareesh G.R. and Kundan Kumar S
This research focuses on designing and developing a smart integrated sensor-transducer-actuator system tailored for space applications. The system aims to combine sensors, transducers, and actuators into a unified platform to enhance functionality and reliability in space environments. Sensors gather data from the environment, transducers convert this data into actionable signals,...
This research focuses on designing and developing a smart integrated sensor-transducer-actuator system tailored for space applications. The system aims to combine sensors, transducers, and actuators into a unified platform to enhance functionality and reliability in space environments. Sensors gather data from the environment, transducers convert this data into actionable signals, and actuators perform specific tasks based on these signals. The integration of these components seeks to improve real-time monitoring, control, and automation in space missions, such as satellite operations and spacecraft systems. The goal is to advance space technology by creating a compact, efficient, and intelligent system for various space applications. (Mechanical Engineering)
An Institute of Eminence
