research-article | 30-November-2019
Multiple input multiple output (MIMO) radar draws the attention of the researchers at the background of MIMO communication. Detection, target characterization and tracking are the basic functions of a radar system. But environmental conditions (multipath, clutter) and a low signal-to-noise ratio (SNR) put lots of challenges among many challenges faced by any radar system (Godrich et al., 2009, 2010; Chiriac and Haimovich, 2010).
In MIMO radar, targets are probed with multiple, simultaneous
Samarendra Nath Sur,
Soumyasree Bera,
Subhankar Shome,
Rabindranath Bera,
Bansibadan Maji
International Journal on Smart Sensing and Intelligent Systems, Volume 13 , ISSUE 1, 1–8
Research Article | 01-March-2017
In this fast moving world, the number of fatal accidents is increasing day by day and this leads to the requirement of the availability of the traffic condition and road conditions related data to the users. Therefore, to support Vehicle-to-vehicle (V2V) communication in high speed mobility condition, it is required to have reliable and secure of communication. Here, the performance of multiple input and multiple output (MIMO) system as a combination of nonlinear decision feedback receiver (DFE
Samarendra Nath Sur,
Rabindranath Bera,
Bansibadan Maji
International Journal on Smart Sensing and Intelligent Systems, Volume 10 , ISSUE 1, 50–68
Article | 30-November-2018
I.
INTRODUCTION
With the rapid popularization of the practical application of wireless communication system, the number of wireless communication users and user service demand have increased exponentially, but the radio spectrum resources which can be used in wireless communication services are extremely limited. The contradiction between the increasing demand of wireless service and the limited radio spectrum resources is becoming more and more prominent. MIMO multi antenna technology is a new
Sun Ruihua,
Bai Junying,
An Yongli
International Journal of Advanced Network, Monitoring and Controls, Volume 3 , ISSUE 3, 61–69
Article | 01-December-2015
This paper addresses the problem of performance assessment for MIMO PID controllers. An efficient comparative analysis is established using two Iterative Linear Matrix Inequality (ILMI) approaches. To evaluate the robustness and the performances of each ILMI approach, four tests are carried out on the closed-loop system including White Gaussian noise, set point changes, parametric perturbation, and multiple time-delays influence. Different performance criterion such as IAE, ISE, ITAE and ITSE
Wajdi Belhaj,
Olfa Boubaker
International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 4, 1896–1916
Article | 12-October-2020
. Ogólnie, pokrewieństwo filogenetyczne szczepów probiotycznych, mimo pewnej odrębności genetycznej, jest wystarczające, aby osadzić je w tym gatunku [71, 87, 120].
Metodą znacznie prostszą i szybszą w wykonaniu, choć mniej czułą i powtarzalną niż PFGE, jest RAPD (random amplification of polymorphic DNA). Polega ona na losowej amplifikacji polimorficznych fragmentów DNA, z zastosowaniem pojedynczego startera DNA o długości 10–20 pz. Powielanie losowych fragmentów genomu jest ukierunkowane i w jego
Katarzyna Roeske,
Aleksandra Zasuń,
Justyna Cieślik,
Marta Wróblewska,
Tomasz Jagielski
Postępy Mikrobiologii - Advancements of Microbiology, Volume 59 , ISSUE 3, 291–303
research-article | 30-November-2018
uncertainty domain to be denoted as robust stability. The robust control theory provides analysis and synthesis approaches and tools applicable for various kinds of processes, including multi-input multi-output (MIMO) dynamic systems (Himanshukumar and Vipul, 2018b). To reduce the multivariable control problem complexity, MIMO systems are often considered as interconnections of a finite number of subsystems. This approach enables employing a decentralized control structure with subsystems having their
Himanshukumar R. Patel,
Vipul A. Shah
International Journal on Smart Sensing and Intelligent Systems
, Volume 12 , ISSUE 1, 1–20
Article | 30-November-2018
deployment, and more efficient frequency reuse.
4)
MIMO Antenna Technology
Multi-antenna technology has been applied to a variety of wireless communication systems as a means of improving spectral efficiency and reliability of transmission. For example, 3G systems, WLAN, LTE, LTE-A, and the like. According to the information theory, the more the number of antennas, the more obvious the spectrum efficiency and reliability improvement. Especially when the number of transmitting antennas and receiving
Junying Bai,
Yongli An,
Ruihua Sun
International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 2, 86–92