Call For Paper

Volume 10 Issue 3

March 2024

Submit Paper Here
Download Paper Format
Copyright Form
NEWS & UPDATES
News for Authors:

We have started accepting articles by online means directly through website. Its our humble request to all the researchers to go and check the new method of article submission on below link: Submit Manuscript

Follow us on Social Media:

Dear Researchers, to get in touch with the recent developments in the technology and research and to gain free knowledge like , share and follow us on various social media. Facebook

title

SPARSE CHANNEL ESTIMATION AND CHANNEL CAPACITY MAXIMIZATION USING MULTI HOP MIMO OFDM SYSTEMS

Author(s):

D. Durga Devi

Keywords:

MIMO, System Level modulation Management, Power Manageable Components

Abstract

Power and energy utilization has recently grown-up to be a vital issue and as an end result, invention of power management techniques should be necessary at all levels of system design such as circuit and device level. The proposed MIMO generator does not required the amending the occupational logic and does not vitiate system recital. This paper first explains about the power manageable components and then illustrates how the system employs the dynamic power management techniques to minimize the power consumption. We diminish the power utilization of Built-in self-test by using dynamic power management scheme which is used in low power design of MIMO generator, especially the power management unit is integrated. We have designed the built in self-test as a group of power manageable components. When the system starts its action, it may exist in one of the power states. Each power state of the system requires different amount of power for its functionality. The dynamic power management technique tells about states of affairs of the systems with an intention of obtaining low power utilization. Corresponding to different power states of system components, different power supply is provided. By using our proposed scheme, we can reduce the power utilization of System on Chip by 37.675%.

Other Details

Paper ID: IJSARTV
Published in: Volume : 7, Issue : 11
Publication Date: 11/8/2021

Article Preview




Download Article