@mriet.ac.in
ASSOCIATE PROFESSOR ,ELECTRONICS AND COMMUNICATION ENGINEERING
MALLA REDDY INSTITUTE OF ENGINEERING AND TECHNOLOGY
pattem sampath kumar hails from MANCHERIAL which is a part of Telangana ,completed his schooling from from the same town and intermidiate from chanakya junior college hyderabad, Btech from srinidhi inst. of science and technology Hyderabad and ME from vasavi engineering college and PhD from JNTUA is having a total 12 years teaching kottam tulasi reddy insst . of technology and malla reddy inst. of technology as Assistant professor and malla reddy of engineering and technology as Asssociate research interest lies in VLSI and WSN.
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PhD from JNTUA COMPLETED in JUNE 202O
ME from VCE completed in 2008
BTech from SNIST completed in 2002
VLSI and WSN
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Kayam Saikumar, D. Arulanantham, R. Rajalakshmi, R. Thandaiah Prabu, Pattem Sampath Kumar, K. Suvarna Vani, Shaik Hasane Ahammad, Mahmoud M. A. Eid, Ahmed Nabih Zaki Rashed, Md.Amzad Hossain,et al.
Springer Science and Business Media LLC
Pattem Sampath Kumar, Vijayalakshmi Ch, Swapna Thouti, G Prasanna Kumar, and N. Rajeswaran
IEEE
An Op Amp's main goal is to get the maximum open loop gain feasible in order to apply feedback concepts and build a more reliable system. The majority of op amp circuit types are built based on multistage nodes to obtain high gain with stability. This work presents self-biased two stage amplifier. In this differential amplifier inverters are used as input structures and self-biasing techniques is being used. The self-bias is done through negative feedback. This differential amplifier has fully complementary design. Detailed circuit analyses such as differential-mode, common-mode, CMRR, transient and AC analysis is being carried out. Finally, the experimental results those are relevant for an integrated circuit is designed using gpdk90nm technology and 1.8V. Final Simulations and results calculations were carried out in virtuoso Cadence tool.
Thammana Ajay, K. Nagi Reddy, Dasari Anantha Reddy, Pattem Sampath Kumar, and K Saikumar
IEEE
The main aim of SAR signal processing and radar network is to handle the subsystem presentation and structure style, which significantly influences the execution of high presentation system design. For that reason, it has become a major problem to recognize the superior adaptive inclusive, flexible SAR signal for handling the system with new TI-multi center DSPTMS320c6678 depended on VPX 3U standards. The current paper projects the design plan and execution of an elite continuous SAR signal preparing system. It illustrates the solid ability to measure, solidity, quick remaking and great versatility for a range of imaging calculations. The adaptability and elite could be satisfactorily illustrated by the fruitful implementation of the multi-mode, multi-polarization, multi-goals space-borne and airborne constant SAR imaging frameworks. In comparison, our test result reveals that a SAR RD measurement requires 21.58s for a 4.2GB (16K and 32K complicated focuses) image with 0.2m*0.2m targets, achieving continuous execution.
Koppula Srinivas Rao, Saravanan S., Pattem Sampath Kumar, Rajesh V., and K. Raghu
IGI Global
The benefits of data analytics and Hadoop in application areas where vast volumes of data move in and out are examined and exposed in this report. Developing countries with large populations, such as India, face several challenges in the field of healthcare, including rising costs, addressing the needs of economically disadvantaged people, gaining access to hospitals, and conducting medical research, especially during epidemics. This chapter discusses the role of big data analytics and Hadoop, as well as their effect on providing healthcare services to all at the lowest possible cost.
Padmini G R, Rajesh Odela, Sampath Kumar P, and Saikumar K
Seventh Sense Research Group Journals
D. R. V. A. Sharath Kumar, Ch. Srinivas Kumar, Ragamayi S., P. Sampath Kumar, K. Saikumar, and Sk. Hasane Ahammad
Institute of Advanced Engineering and Science
Test arranging is a basic issue in structure on-a-chip (S.O.C) experiment mechanization. Capable investigation designs constrain the general organization check request time, keep away from analysis reserve conflicts, in addition to purpose of restriction control disseminating in the midst of examination manner. In this broadsheet, we absent a fused method to manage a couple of test arranging issues. We first present a system to choose perfect timetables for sensibly evaluated SOC’s among need associations, i.e., plans that spare alluring orderings among tests. This furthermore acquaints a capable heuristic estimation with plan examinations designed for enormous S.O.Cs through need necessities in polynomial occasion. We portray a narrative figuring with the purpose of uses pre-emption of tests to secure capable date-books in favour of SOCs. Exploratory marks on behalf of an educational S-O-C plus a cutting edge SOC exhibit with the aim of capable investigation timetables be able to subsist gained in sensible CPU occasion.
Pattem Sampath Kumar, K. Jaya Sankar, and Sumalatha V
Institute of Advanced Scientific Research
Pattem Sampath Kumar, K. Jaya Sankar, and V. Sumalatha
IEEE
Power conservation is the prime need in wireless sensor communication. Due to limited power source and continuous operation characteristic, the power consumed by the node devices are very high. In concern to higher Power conservation, the nodes are to be operated on a efficient manner to conserve maximum power level. In this paper, a new communication protocol for wireless sensor network is proposed, where a “Knock” string is used to control the node operation, conserving power of communication. The simulation result for the proposed approach illustrates the significance of the proposed approach in power conservation.
Pattem Sampath Kumar, K. Jaya Sankar, and V. Sumalatha
IEEE
In the operation of industrial monitoring in distributed manner, new approaches have emerged to achieve the objective of efficient data exchange. Wireless sensor network has up came as an optimal solution to distributed monitoring. In the approach to precise monitoring and remote controlling, new approaches of resource controlling and operational controlling were developed. However, the node level design is yet to be improved to achieve a overall performance. In this approach, a new modeling of synchronous mode operation with resource monitoring is proposed, to achieve the objective of optimal data exchange in wireless sensor network. The design approach is made with a new architectural design, defined using Xilinx ISE tool.