Your search keyword '"Anirudh Bharadwaj"' showing total 9 results

1. Microstructure, Mechanical and Fractographic behaviour of the Diffusion Welded Joints of AA2219 and Ti-6Al-4V for aerospace applications

Author

Manjunath Vatnalmath, V. Auradi, Bharath V Bharath, Anirudh Bharadwaj, Chetan Gowda, and Madeva Nagaral

Subjects

AA2219, Diffusion welding, Microstructure, Interface, Intermetallic, Brittle fracture, Mechanical engineering and machinery, TJ1-1570, Structural engineering (General), TA630-695

Abstract

Diffusion welding is an advanced joining process that assures the feasibility of joining dissimilar metal alloys without producing metallurgical impurities at the joint interface. Two significant aerospace alloys, AA2219 and Ti-6Al-4V, are diffusion welded for the various holding times (30-120 minutes) by keeping the bonding temperature and pressure constant. The effect of holding time on the microstructure of the diffusion welded joints is evaluated using scanning electron microscopy (SEM), and the diffusion behaviour across the joint interface is ensued by the line scan energy dispersive spectroscopy (EDS). The obtained results show that the hardness across the joint interface is increased with increase in holding time. Furthermore, the maximum shear strength of 143.58 MPa is achieved for the joint formed at the holding time of 90 minutes and reduced thereafter. The formation of a thick intermetallic layer at a higher holding time strongly affects the shear strength. It is evident from the resulting fractured surfaces that the joints predominantly failed at the bonding interface, showcasing the brittle kind of failure. The X-ray diffraction (XRD) study on the fractured surfaces substantiates the formation of AlTi, Al2Ti and Al3Ti intermetallic compounds.

Published

2024

2. Recent advances in the design of SERS substrates and sensing systems for (bio)sensing applications: Systems from single cell to single molecule detection [version 1; peer review: awaiting peer review]

Author

Sai Ratnakar Tadi, Ashwini G Shenoy, Anirudh Bharadwaj, Sreelakshmi C S, Chiranjay Mukhopadhyay, Kapil Sadani, and Pooja Nag

Subjects

Review, Articles, Raman effect, Surface Enhanced Raman Spectroscopy, Disposable substrates, Point-of-use, Single-molecule sensing, Bioreceptor.

Abstract

The Raman effect originates from spontaneous inelastic scattering of photons by matter. These photons provide a characteristic fingerprint of this matter, and are extensively utilized for chemical and biological sensing. The probability of generation, and hence the detection of these Raman scattered photons, is very low; hence, it is difficult to use this directly for sensing in complex matrices. To amplify this signal, surface-enhanced Raman spectroscopy (SERS) has been extensively investigated and has emerged as a powerful analytical tool for sensing diverse analytes, including ions, small molecules, inorganics, organics, radionucleotides, and cells. Plasmonic nanoparticles, called hotspots, exhibit localized surface plasmon resonance (LSPR). This amplifies the Raman signal and may offer up to a 10 10-fold SERS signal enhancement. The development of SERS active substrates requires further consideration and optimization of several critical features such as surface periodicity, hotspot density, mitigation of sample or surface autofluorescence, tuning of surface hydrophilicities, use of specific (bio) recognition elements with suitable linkers and bioconjugation chemistries, and use of appropriate optics to obtain relevant sensing outcomes in terms of sensitivity, cross-sensitivity, limit of detection, signal-to-noise ratio (SNR), stability, shelf-life, and disposability. This article details the optimization of the aforementioned considerations in the use of disposable materials such as commercial grades of paper, textiles, glasses, polymers, and some specific substrates such as blue-ray digital versatile discs (DVDs) for use as SERS-active substrates for point-of-use (POU) sensing applications. The advancements in these technologies have been reviewed and critiqued for analyte detection in resource-limited settings, highlighting the prospects of applications ranging from single-molecule to single-cell detection.

Published

2024

3. Non-Invasive Screen Exposure Time Assessment Using Wearable Sensor and Object Detection.

Author

Xueshen Li, Steven Holiday, Matthew Cribbet, Anirudh Bharadwaj, Susan White, Edward Sazonov, and Yu Gan 0003

Published

2022

4. Knowledge extraction from abnormal stock returns: evidence from Indian stock market

Author

Molla Ramizur Rahman, Anirudh Bharadwaj, and Pabitra Mitra

Published

2022

5. Economic Impacts of Post Pandemic Cyber Crimes – A Global Overview

Author

Anirudh Bharadwaj M

Subjects

Information sensitivity, Work (electrical), business.industry, Phone, Social engineering (security), Internet privacy, Pandemic, Business, Economic impact analysis, Intellectual property, Phishing

Abstract

Cybercrimes have become as common as petty crimes and at every level we can face situations that make us vulnerable to cybercrimes through links, text messages on phones, scam phone calls etc. that demand to sensitive information and misuse them. The 2019-2021 Corona Virus (SARS-CoV-2) Pandemic has shown a drastic increase in cybercrimes. As use of technology, remote access work and communication rise, increase in digital process increase, it has also made people vulnerable to many different types of cyber-attacks such as phishing, malwares and social engineering. It has also resulted in commercial theft of intellectual property. This paper tries to throw light on economic loses that have occurred due to cybercrimes.

Published

2021

6. The Floret Antenna for Terahertz Applications

Author

Anirudh Bharadwaj, Shweta Vincent, and Tanweer Ali

Subjects

Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2023

7. Speech Automated Examination for Visually Impaired Students

Author

Meghana Mukunda Joshi, Antara Roy Choudhury, K. Anirudh Bharadwaj, K Panimozhi, Niyathi Srinivasan Kumbale, and Nikhil S Shastry

Subjects

Thesaurus (information retrieval), business.industry, Process (engineering), Computer science, Visually impaired, 010401 analytical chemistry, Control (management), 0211 other engineering and technologies, 021107 urban & regional planning, Speech synthesis, 02 engineering and technology, computer.software_genre, 01 natural sciences, Automation, 0104 chemical sciences, Human–computer interaction, Independence (mathematical logic), business, computer

Abstract

A huge opportunity for scribe automation is to design a system specifically to support visually impaired and blind students in the process of achieving high levels of independence while attending examinations, by automating their exam-taking process. The ability of students to control and independently answer questions through voice helps reduce their reliance on human assistance. The prime goal of the proposed application is to solve the problem of students being dependent on scribes to take examinations. Upon clicking particular keys on the keyboard, questions will be dictated by using the concept of speech synthesis, and answers can be given accordingly based on the concept of speech recognition. Hence, not only visually impaired students can benefit from this but it will prove to be useful for the other handicapped people as well.

Published

2020

8. An Enhanced Traffic Abnormality Detection System for Vehicle Characteristics Tracking using Radar Signals

Author

Sreelatha R, K. Anirudh Bharadwaj, and R Roopalakshmi

Subjects

010401 analytical chemistry, Population explosion, 01 natural sciences, Wrong-way driving, 0104 chemical sciences, Transport engineering, 03 medical and health sciences, 0302 clinical medicine, Urbanization, Transportation industry, 030212 general & internal medicine, Business, Tracking (education), Radar signals, Road user, Abnormality detection

Abstract

Due to urbanization and population explosion in India, the number of vehicles on the road every day is increasing at an unprecedented rate. This indirectly calls for increase in rate of road accidents and fatality rate. With budding economic trends and shape-shifting growth plot of urban world, the need to improve consumer safety all together has been a major issue in hand for the transportation magnet industries. Inefficient transport system, meagre congestion management and reckless drivers with no regard to human life have been a major stake around the epicenter of all snags of road accidents. Thus, there is a crucial need to inculcate technological signatures to uplift the current backlogs transportation industry is facing, by making it more accessible, environmentally friendly, faster, comfortable, safe and affordable without compromising the future needs. Wrong way driving on busy roads and highways can have catastrophic outcomes. If a wrong way driver is not detected and dealt with instantly, they will be endangering the lives of themselves and other road users. This article therefore attempts to detect perilous conditions such as vehicles approaching in oncoming lane traffic and slow-moving vehicles and inform and aware the drivers who is forthcoming in the same lane.

Published

2020

9. Emergence of Neuromorphic Chips to simulate Human Brain

Author

K. Anirudh Bharadwaj

Subjects

Computer architecture, Artificial neural network, Neuromorphic engineering, Computer science, Paradigm shift, Pattern recognition (psychology), Information processing, Hardware acceleration, Day to day, Field (computer science)

Abstract

The recently evolved research on neuromorphic computing which is considered as the hardware acceleration of brain-inspired computing, which has been one of the best adaptable intelligences and is being widely used in various areas of applications ranging from basic neuroscience research, to pattern recognition and artificial intelligence. Although, computing power is technologically progressing in astonishing rate, the need to push computing power further always has been the dire necessity in the modern world. The paradigm shift from traditional convectional computing to neuromorphic computing can be the next generation of computing offering high computational speeds and greater efficiency when compared to the traditional way of information processing and computing. This invited paper, starts off with the background introduction of Moore’s law followed by neuromorphic computing and end with recent innovations in the field and conclude with technological challenges and applications of neuromorphic computing in day to day life.

Published

2019