Antenna Theory And Design

Proceedings of world academy of science, engineering and technology, vol 8

The global bandwidth shortage in the wireless communication sector has motivated the study and exploration of wireless access technology known as massive Multiple-Input Multiple-Output (MIMO). Massive MIMO is one of the key enabling technology for next-generation networks, which groups together antennas at both transmitter and the receiver to provide high spectral and energy efficiency using relatively simple processing. Obtaining a better understating of the massive MIMO system to overcome the fundamental issues of this technology is vital for the successful deployment of 5G—and beyond—networks to realize various applications of the intelligent sensing system. In this paper, we present a comprehensive overview of the key enabling technologies required for 5G and 6G networks, highlighting the massive MIMO systems. We discuss all the fundamental challenges related to pilot contamination, channel estimation, precoding, user scheduling, energy efficiency, and signal detection in a massive MIMO system and discuss some state-of-the-art mitigation techniques. We outline recent trends such as terahertz communication, ultra massive MIMO (UM-MIMO), visible light communication (VLC), machine learning, and deep learning for massive MIMO systems. Additionally, we discuss crucial open research issues that direct future research in massive MIMO systems for 5G and beyond networks.

Massive MIMO Systems for 5G and Beyond Networks-Overview, Recent Trends, Challenges, and Future Research Direction.

Preparation and characterization of CdO films deposited by dc magnetron reactive sputtering

Understanding the toxicity of carbon nanotubes in the environment is crucial to the control of nanomaterials in producing and processing and the assessment of health risk for human: a review.

Brushless DC Motor (BLDCM) is broadly utilized for some mechanical applications, given their high efficiency, high torque, and low volume. It is very hard to tune the parameters and accomplish full force highlights utilizing a basic custom PID controller. An adaptive PID controls can meet the highlights and are anything but difficult to enrol. The list items test that any adaptive PID controller has favoured both the PI controller and the customary Tahitian PID controller. This paper applies an Adaptive PID controller dependent on the extra blunder of a turn around control sign to comprehend non-linearity, parameter varieties, and burden travel issues that happen in the BLDC motor drive framework. The test results are exhibited to demonstrate that Adaptive PID controllers dependent on the extra mistake of the reverse control signal are fit for the following movement, just as diminishing the impact of parameter changes. The proposed adaptive PID controller model has done by MATLAB/SIMULINK.

Adaptive PID Controller Using for Speed Control of the BLDC Motor

MIMO is a technology that utilizes multiple antennas at transmitter/receiver to improve the throughput, capacity and coverage of wireless system. Massive MIMO where Base Station is equipped with orders of magnitude more antennas have shown over 10 times spectral efficiency increase over MIMO with simpler signal processing algorithms. Massive MIMO has benefits of enhanced capacity, spectral and energy efficiency and it can be built by using low cost and low power components. Despite its potential benefits, this paper also summarizes some challenges faced by massive MIMO such as antenna spatial correlation and mutual coupling as well as non-linear hardware impairments. These challenges encountered in massive MIMO uncover new problems that need further investigation.

Massive MIMO for Fifth Generation (5G): Opportunities and Challenges

At present, green technology is a major concern in every country around the world and electricity is a clean energy which encourages the acquisition of this technology. The main applications of electricity are made through the use of electric motors. Electric power is converted to mechanical energy using a motor, that is to say, the major applications of electrical energy are accomplished through electric motors. Brushless direct current (BLDC) motors have become very attractive in many applications due to its low maintenance costs and compact structure. The BLDC motors can be substituted to make the industries more dynamic. To get better performance BLDC motor requires control drive facilitating to control its speed and torque. This paper describes the design of the BLDC motor control system using in using MATLAB/SIMULINK software for Proportional Integral Derivative (PID) algorithm that can more effectively improve the speed control of these types of motors. The purpose of the paper is to provide an overview about the functionality and design of the PID controller. Finally, the study undergoes some well-functioning tests that will support that the PID regulator is far more applicable, better operational, and effective in achieving satisfactory control performance compared to other controllers.

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Control BLDC Motor Speed using PID Controller

With the continual increase of senior citizens more resources are required for providing care centers services. The quality of such services can be enhanced by remotely monitoring senior citizens living independently in their homes. The monitoring can be performed using various types of sensors, but the solution presented in this paper is simple, cost effective as well as easy to implement compared to most of the existing systems. The proposed system uses capacitive based sensor to monitor the daily activities of an elderly living alone. The monitoring system works on the principle of measuring the disturbance in the electromagnetic field when a human body approaches the sensor. This proposed sensor is fundamentally based on electric field sensing using sensors are in the form of thin planar electrodes. The Arduino-based board in combination with CapSense library acquires the sensed data. The detection system is embedded on the care-center floor surface, making the system to be non-intrusive as well as maintaining the privacy of the user. The data so obtained is perceived as information on a PC, which can be used in generating an automatic alarm system. A notification can be sent to the cell phones of the caregivers for assistance. The important thing in the alarms is that no user input is required from the person under monitoring and no devices need to be worn. A prototype sensor is described in detail and preliminary results are presented based on simulation and experimental procedure.

An activity monitoring system for senior citizens living independently using capacitive sensing technique

In this paper a simple structure of Ultra Wideband (UWB) antenna is proposed. The antenna offers excellent performance for UWB system, ranging from 3.7 GHz to 13.8 GHz. The antenna exhibits a 10 dB return loss bandwidth over the entire frequency band. The antenna is designed on FR4 substrate and fed with 50 ohms microstrip line. It is found that the frequency band depends on the width of the partial ground width, the width of the feedline and position of the feedline.

A. H. M. Zahirul Alam

Papers

Adaptive PID Controller Using for Speed Control of the BLDC Motor

Massive MIMO for Fifth Generation (5G): Opportunities and Challenges

Control BLDC Motor Speed using PID Controller

An activity monitoring system for senior citizens living independently using capacitive sensing technique

Design and analysis of UWB rectangular patch antenna