International Journal of VLSI design & Communication Systems ( VLSICS )
ISSN: 0976 - 1357 (Online); 0976 - 1527(print)
http://airccse.org/journal/vlsi/vlsics.html
#CMOS #vlsicircuits
Submission Deadline: February 06, 2021
Contact Us
Here's where you can reach us: vlsicsjournal@airccse.org or vlsicsjournal@yahoo.com
8th International Conference on Signal and Image Processing (SIGL 2021)
March 27 ~ 28, 2021, Sydney, Australia
https://cosit2021.org/sigl/index
#signalprocessing #imageprocessing
Submission Deadline: January 23, 2021
Here's where you can reach us : sigl_conference@yahoo.com or sigl@cosit2021.org
Submission System: https://cosit2021.org/submission/index.php
Anas N. Al-Rabadi
Department of Computer Engineering, The University of Jordan, Amman – Jordan & Department of Renewable Energy Engineering, Isra University – Jordan
ABSTRACT
Novel layout realizations for congestion-free three-dimensional lattice networks using the corresponding carbon-based field emission controlled switching is introduced in this article. The developed nano-based implementations are performed in three dimensions to perform the required concurrent computations for which two-dimensional implementations are a special case. The introduced realizations for congestion-free concurrent computations utilize the field-emission controlled switching devices that were presented in the first and second parts of the article for the solution of synthesis congestion and by utilizing field-emission from carbon nanotubes and nanotips. Since the concept of symmetry indices has been related to regular logic design, a more general method called Iterative Symmetry Indices Decomposition that produces regular three-dimensional lattice networks via carbon field-emission multiplexing is presented, where one obtains multi-stage decompositions whenever volume-specific layout constraints have to be satisfied. The introduced congestion-free nano-based lattice computations form new and important paths in regular lattice realizations, where applications include low-power IC design for the control of autonomous robots and for signal processing implementations.
KEYWORDS
Concurrency, Iterative symmetry decomposition, Layout congestion, Lattice networks, Nano-apex emission.
ORIGINAL SOURCE URL: https://aircconline.com/vlsics/V11N6/11620vlsi02.pdf
http://airccse.org/journal/vlsi/vol11.html
Anas N. Al-Rabadi
Department of Computer Engineering, The University of Jordan, Amman – Jordan & Department of Renewable Energy Engineering, Isra University – Jordan
ABSTRACT
Novel realizations of concurrent computations utilizing three-dimensional lattice networks and their corresponding carbon-based field emission controlled switching is introduced in this article. The formalistic ternary nano-based implementation utilizes recent findings in field emission and nano applications which include carbon-based nanotubes and nanotips for three-valued lattice computing via field-emission methods. The presented work implements multi-valued Galois functions by utilizing concurrent nano-based lattice systems, which use two-to-one controlled switching via carbon-based field emission devices by using nano-apex carbon fibers and carbon nanotubes that were presented in the first part of the article. The introduced computational extension utilizing many-to-one carbon field-emission devices will be further utilized in implementing congestion-free architectures within the third part of the article. The emerging nano-based technologies form important directions in low-power compact-size regular lattice realizations, in which carbon-based devices switch less-costly and more-reliably using much less power than silicon-based devices. Applications include low-power design of VLSI circuits for signal processing and control of autonomous robots.
KEYWORDS
Carbon nano-apex emission, Concurrent computing, Formal symmetrization, Lattice networks, Regularity
ORIGINAL SOURCE URL: https://aircconline.com/vlsics/V11N6/11620vlsi01.pdf
http://airccse.org/journal/vlsi/vol11.html
International Journal of VLSI design & Communication Systems ( VLSICS )
ISSN: 0976 - 1357 (Online); 0976 - 1527(print)
http://airccse.org/journal/vlsi/vlsics.html
***February Issue Journal***
Top 5 Read VLSI design & Communication Systems articles from VLSICS in 2020
Submission Deadline : January 16, 2021
Contact Us
Here's where you can reach us : vlsicsjournal@airccse.org or vlsicsjournal@yahoo.com
September 25 ~ 26, 2021, Toronto, Canada
https://cseit2021.org/spm/index
SCOPE
8th International Conference on Signal, Image Processing and Multimedia (SPM 2021) is a forum for presenting new advances and research results in the fields of Signal, Image Processing and Multimedia. The conference will bring together leading researchers, engineers and scientists in the domain of interest from around the world. Authors are solicited to contribute to the conference by submitting articles that illustrate research results, projects, surveying works and industrial experiences.
Authors are solicited to contribute to the conference by submitting articles that illustrate research results, projects, surveying works and industrial experiences that describe significant advances in the following areas, but are not limited to.
TOPICS OF INTEREST
·
Signal
and Image Processing
·
Applied
Digital Signal Processing
·
Audio,
Image, Video processing
·
Coding
and Transmission
·
Computer
Graphics and Visualization
·
Computer
Vision
·
Digital
Signal Processing in Communications
·
Emerging
Technologies
·
Emerging
Technologies in Digital Signal Processing
·
Image
& Signal Processing Applications
·
Image
Acquisition and Display
·
Image
and Video Processing & Analysis
·
Image
Formation
·
Image
Scanning, Display, and Printing
·
Machine
learning, Computer Graphics, Biological Vision
·
Storage
and Retrieval
·
Multimedia
·
Digital
Multimedia Broadcasting
·
Education
and Training
·
Multimedia
analysis and Internet
·
Multimedia
and Artificial Intelligence
·
Multimedia
Applications
·
Multimedia
Communication and Networking
·
Multimedia
Content Understanding
·
Multimedia
Databases and File Systems
·
Multimedia
Human-Machine Interface and Interaction
·
Multimedia
Interface and Interaction
·
Multimedia
Security and Content Protection
·
Multimedia
Signal Processing
·
Multimedia
Standards and Related Issues
·
Multimedia
Systems and Devices
·
Operating
System Mechanisms for Multimedia
·
Virtual
Reality and 3-D Imaging
·
Wireless,
Mobile Computing and Multimedia
Authors are invited to submit papers through the conference Submission System by January 30, 2021. Submissions must be original and should not have been published previously or be under consideration for publication while being evaluated for this conference. The proceedings of the conference will be published by Computer Science Conference Proceedings in Computer Science & Information Technology (CS & IT) series (Confirmed).
Selected papers from SPM 2021, after further revisions, will be published in the special issue of the following journals
·
Signal & Image Processing : An
International Journal (SIPIJ)
·
International Journal of VLSI Design
& Communication Systems (VLSICS)
·
International
Journal of Multimedia & Its Applications (IJMA)
·
International Journal of Embedded
Systems and Applications (IJESA)
· Information Technology in Industry (ITII)New - ESCI-Thomson Reuters Indexed
IMPORTANT DATES
·
Submission Deadline: January 30, 2021
·
Authors Notification: April 20, 2021
·
Registration & Camera-Ready
Paper Due : April 30, 2021
CONTACT US
Here's where you can reach us: spm@cseit2021.org or spmconf@yahoo.com
SUBMISSION
SYSTEM
https://cseit2021.org/submission/index.php
G.Deepika1 and K.S.Rao2
1Research scholar at JNTU,Hyderabad , Asso.Prof at RRS college of Engg,
2Director & Professor in ECE Dept,Anurag group of Institutions, Hyderabad
ABSTRACT
The most common brain disorders due to abnormal burst of electrical discharges are termed as Epileptic seizures. This work proposes an efficient approach to extract the features of epileptic seizures by decomposing EEG into band limited signals termed as IMF’s by empirical decomposition EMD. Huang Hilbert Transform is applied on these IMF’s for calculating Instantaneous frequencies and are classified using artificial neural network trained by Back propagation algorithm. The results indicate an accuracy of 97.87%. The algorithm is implemented using Verilog HDL on Zynq 7000 family FPGA evaluation board using Xilinx vivado 2015.2 version.
KEYWORDS
EEG, IMF,EMD
ORIGINAL SOURCE URL: https://aircconline.com/vlsics/V10N3/10319vlsi02.pdf
http://airccse.org/journal/vlsi/vol10.html
International Journal of VLSI design & Communication Systems ( VLSICS )
ISSN: 0976 - 1357 (Online); 0976 - 1527(print)
http://airccse.org/journal/vlsi/vlsics.html
***February Issue Journal***
Top 5 Cited VLSI design & Communication Systems articles from VLSICS in 2020
Submission Deadline : January 09, 2021
Contact Us
Here's where you can reach us : vlsicsjournal@airccse.org or vlsicsjournal@yahoo.com
ISSN: 0976 - 1357 (Online); 0976 - 1527(print)
http://airccse.org/journal/vlsi/vlsics.html
Contact Us
Here's where you can reach us : vlsicsjournal@airccse.org or vlsicsjournal@yahoo.com
Here you can reach us in social Medias
Facebook: https://www.facebook.com/vlsics.journal
Twitter : https://twitter.com/vlsicsjournala1
Academia: https://independent.academia.edu/VJournal
Google scholar Link: https://scholar.google.co.in/citations?user=ZdE-aVMAAAAJ
Submission Deadline : January 09, 2021
