Intelligence Monitoring of Home Security Hampika Gorla, Mary Swarna Latha Gade, Babitha Lokula, V. Bindusree, Pranay Kumar Padegela Lecture Notes in Networks and Systems, 2023
QCA Based Universal Shift Register using 2 to 1 Mux and D flip-flop S. Sushma, S. Swathi, V Bindusree, Sri Indrani Kotamraju, A. Ashish Kumar, et al. 2021 7th IEEE International Conference on Advances in Computing Communication and Control Icac3 2021, 2021 A Quantum-dot cellular automaton (QCA) represents a modern technology for implementing small-sized circuits with high-performance, low-power consumption and various computations in digital circuits at the nanoscale level. These quantum dots made up at a nanoscale level which increases the performance of circuits. With the invention of QCA in electronics, the circuits can achieve their operations with very high efficiency and with low power dissipation. Meanwhile, a universal shift register (USR) is a particular circuit with the functions of storing and shifting bits to a specified direction and is observed as an essential component. This USR also has the process to load the data. Therefore, here we propose a USR circuit based on QCA, i.e., QUSR, which requires the essential components of a shift register and a multiplexer (Mux) combined and used to select the operation of the USR. In this project, we propose a 2-to-1 Mux, which then extended to a 4-to-1 Mux. Here, we suggest a new D flip-flop and design a shift register by connecting all of these. Finally, we propose a QUSR that consumes low power and computes high-performance by combining four 4-to-1 Muxes and a four-bit shift register. The proposed QUSR is highly efficient in time and space complexities and has a good energy dissipation performance. The proposed design performance metric of efficiency achieved by doing required simulations using the QCA Designer tool.
Implementation of An Energy-Efficient Binary Square Rooter Using Reversible Logic by Applying the Non-Restoring Algorithm S. Swathi, S. Sushma, V. Bindusree, L Babitha, Goud K. Sukesh, et al. Proceedings of the 2021 2nd International Conference on Communication Computing and Industry 4 0 C2i4 2021, 2021 Calculation of square root will be an essential mathematical operation that will have broad applications. In Hardware, the square root will be designed in order to gain power which will be quite low. Similarly, there are also other advantages that comes with gaining of low power that is high speed and also low area. A trade-off will also occur with the three metrics which is quite natural. As we know that the present technology is very advanced so it will aim for low power and architectural modification will be required by the relative designs. This sheet represents an energy efficient square rooter by using reversible logic. (RCSM) Reversible Controlled Subtract Multiplexer will be designing and it also plays an important part in implementing the binary square rooter. Saimur Rahman Gate will also be implementing the binary square rooter in order to improve and develop it. The Improvements such as cost of the quanta, inputs given by constants and also garbage outputs. The approaches such as conventional approach and SRG are used for designing the binary square rooter and it will be completed using non-restoring algorithm. Xilinx Software will be responsible for carrying out simulations and Synopsys Design Compiler will be the factor for obtaining power. The gate count which has been 75 will be decreased to 35. There will be an improvement of 20% in terms of power which will be obtained in this paper.
Unmanned parking system using lab view Udattu Dhanalakshmi, V Bindusree, J Swetha, D Khalandar Basha International Journal of Online Engineering, 2018 <p>The existing parking system requires manual support for controlling and monitoring vehicles. The motive of this system is to find out appropriate solution of parking related issues in different aspects. The proposed system can be control the vehicle parking system in shopping malls, Theatres, outdoor stadiums etc. The proposed system consists of two levels of parking for vehicles, where each level has limit of 100. In this proposed parking control system IR sensors will detect and count the number of vehicles on arrival and guided to enter into the vacant parking levels accordingly. This system is designed with automatic lighting and fire detection facility.</p>
Wireless sensor based smart kitchen monitoring system with web server and internet of things Journal of Advanced Research in Dynamical and Control Systems, 2017
