Novel design of cryptographic architecture of nanorouter using quantum-dot cellular automata nanotechnology Sankit Kassa, Jadav Chandra Das, Vijay Lamba, Debashis De, Bikash Debnath, Saurav Mallik, Mohd Asif Shah Scientific Reports, 2024 The article introduces a revolutionary Nanorouter structure, which is a crucial component in the Nano communication regime. To complete the connection, many key properties of Nanorouters are investigated and merged. QCA circuits with better speed and reduced power dissipation aid in meeting internet standards. Cryptography based on QCA design methodologies is a novel concept in digital circuit design. Data security in nano-communication is crucial in data transmission and reception; hence, cryptographic approaches are necessary. The data entering the input line is encrypted by an encoder, and then sent to the designated output line, where it is decoded and transferred. The Nanorouter is offered as a data path selector, and the proposed study analyses the cell count of QCA and the circuit delay. In this manuscript, novel designs of (4:1)) Mux and (1:4) Demux designs are utilized to implement the proposed nanorouter design. The proposed (4:1) Mux design requires 3–5% fewer cell counts and 20–25% fewer area, and the propsoed (1:4) Demux designs require 75–80% fewer cell counts and 90–95% fewer area compared to their latest counterparts. The QCAPro utility is used to analyse the power consumption of several components that make up the router. QCADesigner 2.0.3 is used to validate the simulation results and output validity.
Enhancing Road Safety through Adaptive Headlight System for Two-Wheelers Kshitij Rengade, Vijay Kumar Lamba Isml 2024 Intelligent Systems and Machine Learning Conference, 2024 A blind corner refers to a curve or bend in a road or pathway where visibility is significantly limited or obstructed. These corners make it difficult for drivers, cyclists, or pedestrians to see oncoming vehicles, objects, or individuals from their current vantage point. The lack of visibility around these corners increases the risk of accidents because it is challenging to anticipate and react to potential hazards or oncoming traffic. Blind corners can be caused by various factors, including natural features like hills or bends, buildings or structures obstructing the view, or dense foliage along the roadside. Our project is about two-wheeler headlamp systems, and there is a lot of research going on in this subject right now. As a result, we created a prototype of an adaptive cornering headlight as a solution to the above problem. A microcontroller is used to design this prototype model. Conventional headlights cannot compensate for light projection on a curved and unpaved road at night, and an autonomous adjusting beam helps to optimize illumination of the road ahead this overcomes accidents at cornering/turning due to poor illumination of headlight.
Charge Transport in Semiconductor Heterogeneous Structure at Oxide Interface by Inserting a Functional Layer Aditi Kalsh, Sandeep Dhariwal, Vijay Kumar Lamba 2024 International Conference on Wireless Communications Signal Processing and Networking Wispnet 2024, 2024 This paper presents a simulated work for analysing the charge transport in heterogeneous structure at oxide interface by inserting a functional layer. Complex oxide interfaces are assumed to be highly promising domain in condensed-matter electronics due to the unique physical characteristics and diverse phenomena observed in semiconductor nanoelectronics-based structures. Magnetization at high Curie temperatures, increased temperature superconductivity, ionic conduction, metal-insulator transitions, and polymorphism are examples of these phenomena. Oxide interfaces between highly correlated electron systems also provide a powerful pathway for manipulating charge, spin, orbital, and lattice degrees of freedom and regulating and enhancing effects through interactions with functional layers. This paper suggests a general method for obtaining non-volatile properties at the oxide interface by inserting a functional layer into a heterogeneous structure. The LaAlO3-SrTiO3 (LAO / STO) complex oxide has been chosen for this research paper.
Analyzing the Performance of Conformable and Non-Conformable Patch Antennas Sandeep Dhariwal, Vijay Kumar Lamba, Jyotirmoy Pathak, Amar Choudhary, Gaurav Kumar 2024 5th International Conference for Emerging Technology Incet 2024, 2024 This paper presents a performance analysis between a conventional triangular shaped patch antenna and a future reconfigurable patch antenna. There are different materials with different electronic properties for the simulation of triangular shaped patch antenna. All the materials for the triangular patch antenna are simulated using FEKO tool. Materials selected for triangular patch antenna are Copper, Single-wall Carbon Nano-tube (SCNT), Multiple-wall Carbon Nano-tube (MCNT) and Graphene. For the futuristic antennas, cotton fabric based reconfigurable patch antenna is also analyzed and compared with triangular shaped patch antenna. Graphene based triangular patch antenna has been analyzed best out of other materials. Reconfigurable cotton fabric-based patch antenna provides better bandwidth and results are validated through simulation and experimental setup.
Proficient n-bit Full Adder Circuit Designs in Field-Coupled QCA Nanotechnology Sankit Kassa, Neeraj Kumar Misra, Narendar Vadthiya, Vijay Lamba 2023 IEEE 20th India Council International Conference Indicon 2023, 2023 Emerging Quantum dot cellular automata (QCA) technology has been created as a viable replacement for digital CMOS devices. QCA circuits, which are more energy-efficient and tightly packed than traditional transistors, may be created using standard semiconductor manufacturing procedures. Similar to CMOS switching transistors, QCA technology is a field coupling paradigm that uses tiny semiconductor crystals as the building blocks of information in computer circuits. This paper invented a unique full adder architecture based on coplanar cells operating in independent clock domains. The field-coupled QCA tool, QCADesigner v2.0.3 is utilized for 1-bit full-adder that uses 50 cells, has a 1.2 ns latency, and occupies only 0.5 μm² area. When compared to the most recent QCA-based full adder designs, the 1- bit and 2-bit full adder circuits demonstrate considerable improvements in cell count, latency, clock period, and size.
Optimized Color Correlogram based CBIR to beat the hole of Information and Interpretation Punit Soni, Vijay Kumar Lamba, Surender Kumar Proceedings 2021 IEEE 10th International Conference on Communication Systems and Network Technologies Csnt 2021, 2021 This Efficient Systems are the requirement of this digitalized word due to its numerous applications. This Digital World spurts images and raises systems' demand to deal with the image data. The content-based image retrieval system (CBIR) is one of them and also an on-demand system. This system helps the user retrieve similar information or image data based on the provided image and makes life easy to solve many daily life tasks. Government, architecture, academics, engineering, fashion, journalism, and hospitals are examples where the CBIR system efficiently works and reduces manual work requirements. With this heightened trade, the dependency on the automated systems increases, making the systems complex and more vulnerable to complexity issues. CBIR uses multiple features to extract and information and provide consistent and relevant retrieval in revert. Still, the matter of accuracy and complexity is part of it and needs attention from the researchers. This work proposes an optimized color correlogram based CBIR system that utilizes the color and spatial information to contribute efficiency and accuracy in the CBIR system. Ant lion algorithm is here used to optimize low-level and high-level semantics. This proposed system resolves the complexity issue and determines the gap of information and interpretation to provide accurate outcomes. This proposed system's performance was evaluated using the Correl dataset and hence revealed the fitness of the proposed method in terms of precision.
Modeling CNT interfaces using NEGF approach International Journal of Scientific and Technology Research, 2019
A comprehensive study of periocular biometrics on iris recognition International Journal of Control and Automation, 2019
Heterojunction A comprative study Vijay K Lamba, Derick Engles, Munish Verma 2011 International Semiconductor Device Research Symposium Isdrs 2011, 2011
Modelling of molecular/nano devices V Lamba, S J Engles, D Engles, S S Malik, M Verma Proceedings of the Institution of Mechanical Engineers Part N Journal of Nanoengineering and Nanosystems, 2010
Modeling of electronic transport in molecular devices Technical Proceedings of the 2009 Nsti Nanotechnology Conference and Expo Nsti Nanotech 2009, 2009
Design of multi - Dimensional variable capacitors for RF MEMS Nanotechnology 2009 Fabrication Particles Characterization MEMS Electronics and Photonics Technical Proceedings of the 2009 Nsti Nanotechnology Conference and Expo Nsti Nanotech 2009, 2009
Modeling and designing a device using mugfets 2008 Proceedings of 3rd Energy Nanotechnology International Conference Enic 2008, 2009
Multiple gate approach - Solution of scaling & nano-MOSFETs Technical Proceedings of the 2008 Nsti Nanotechnology Conference and Trade Show Nsti Nanotech Nanotechnology 2008, 2008
Quantum transport in nano mosfets Technical Proceedings of the 2008 Nsti Nanotechnology Conference and Trade Show Nsti Nanotech Nanotechnology 2008, 2008
