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Author

Dinokumar Kongkham

Bio: Dinokumar Kongkham is an academic researcher. The author has contributed to research in topics: Throughput & Channel (broadcasting). The author has an hindex of 1, co-authored 1 publications receiving 2 citations.

Papers
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Journal Article
TL;DR: In this paper antenna configuration is used and QPSK modulation is treated here for simulation purpose, and signal-noise ratio (SNR) curve of Constant modulus algorithm(CMA) equalizer exceeds that of ZF, MMSE and ML equalizer.
Abstract: Multiple Input Multiple Output (MIMO) Orthogonal Frequency Division Multiplexing(OFDM) systems have recently emerged as key technology in wireless communication systems for increasing data rate and system performance. The effect of fading and interference can be combated to increase the capacity of the link. MIMO systems uses Multiple Transmit and Multiple Receive antennas which exploit the multipath propagation in rich scattering environment. The matrix channel plays a pivotal role in the throughput of a MIMO link since the modulation, data rate, power allocation and antenna weights are dependent on the channel gain. When data rate is transmitted at high bit rate, the channel impulse response can extend over many symbol periods which leads to Inter-Symbol Interference(ISI). ISI always caused an issue for signal recovery in wireless communication. In order to reduce the complexity of MIMO system, various detection algorithm such as Zero forcing(ZF), Minimum Mean Square Error(MMSE), Maximum Likelihood(ML) and a novel algorithm namely Constant Modulus Algorithm(CMA) are proposed that reduce bit error rate(BER) via spatial multiplexing. QPSK modulation is treated here for simulation purpose.Simulations are done by MatLab that shows BER vs. signal-noise ratio (SNR) curve of Constant modulus algorithm(CMA) equalizer exceeds that of ZF, MMSE and ML equalizer. In this paper antenna configuration is used.

2 citations

Proceedings ArticleDOI
16 Oct 2022
TL;DR: In this article , the authors show that a smaller number of range estimations will likely be enough to offset the time-changeability of range inhabitance and the veiled station issue.
Abstract: In the beginning, it is important to show that a smaller number of range estimations will likely be enough to offset the time-changeability of range inhabitance and the veiled station issue. In order to improve the precision of spectrum recovery detection, I'd like to second the idea of framework plan detection. Simulators are used to validate our theoretical findings and show that collaboration increases the likelihood of identification even when each auxiliary client provides only a few estimates. Furthermore, show that it is sufficient to consider a subset of close-by optional customers in order to obtain comparable results. It is suggested to use a conveyed compressive inspecting technique, which takes less estimates when conquering, for acceptable wideband spectrum sensing.

2 citations

Journal ArticleDOI
TL;DR: Simulation comparison of RCBCU using the network simulator with the existing channel bonding scheme shows efficient utilization of channel with fairness, delay and starvation ratio.

Cited by
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Proceedings ArticleDOI
01 Sep 2016
TL;DR: A small length polar, encoded for a MIMO (Multiple-Input Multiple-Output) systems with soft output MMSE-SIC (Minimum Mean Square Error-Successive Cancellation) detection, is applied to improve the coded performance while reducing the complexity.
Abstract: Polar codes are proven capacity-achieving and are shown to have equivalent or even better finite length performance than turbo/LDPC codes under some improved decoding algorithm over the Additive White Gaussian Noise (AWGN) channels. Polar coding is based on the so-called channel polarization phenomenon induced by a transform over the underlying binary-input channel. The channel polarization is found to be universal in many signal processing problems and is applied to the coded modulation schemes. In this paper, a small length polar, encoded for a MIMO (Multiple-Input Multiple-Output) systems with soft output MMSE-SIC (Minimum Mean Square Error-Successive Cancellation) detection, is applied to improve the coded performance while reducing the complexity. In order to prove this theory, we compare the proposed MMSE-SIC BER to Zero Forcing (ZF) and Maximum Likelihood (ML) by using 2*2 MIMO systems into Rayleigh channel with BPSK (Binary Phase-Shift Keying) modulation. Simulation results show that MMSE-SIC complexity is lower than the two others detections. We show that the performance of the proposed approach using polar code (128, 64) at 10−2 BER (Bit Error Rate) is around 3dB i.e. 0,66% compared to the optimal ML, while ZF performance is the worst.

5 citations

Journal Article
TL;DR: In this paper antenna 2x2 configuration is used and a Novel algorithm namely ALMMSE is proposed that reduce Bit Error Rate (BER) by using spatial multiplexing and Signal to Noise Ratio (SNR) curve of equalizer exceeds that of ZF, ZFSIC, ZF-SIC-OO, MMSE , MMSE-S IC, MMSA, ML, LS and AlMMSE equalizer.
Abstract: Multiple Input Multiple Output (MIMO) Orthogonal Frequency Division Multiplexing (OFDM) systems have emerged as wide application technology in wireless communication systems for increasing data rate and the system performance. The effect of fading & interference can be reduced to increase the capacity of the link. MIMO systems uses multiple (input) Transmit and multiple (output) Receive antennas which exploit the multipath propagation in the rich scattering environment. The matrix channel plays very pivotal role in the throughput of a MIMO link since the modulation, data rate, power allocation & the antenna weights are the various dependent parameters on the channel gain. When data rate is been transmitted at high bit rate, the channel impulse response can be extended over many symbol periods which leads to Inter-Symbol Interference (ISI). ISI always causing an issue for signal recovery in wireless communication. In order to reduce complexity of MIMO system, various detection algorithm such as Zero Forcing (Z

2 citations

Proceedings ArticleDOI
20 Nov 2022
TL;DR: In this article , the authors demonstrate how to use an ESP32-CAM module and a few electronic sensors to build a clever military robot to monitor border regions in a real-time computer vision workload.
Abstract: Robots are designed to carry out specialised tasks that humans are unable to do or in hazardous environments where human labour is not guaranteed. As a result, these kinds of vehicles can carry out tasks that are challenging for humans. Allowing a soldier the responsibility of surveillance in such circumstances is challenging since it could endanger the soldier's life. Instead, we can utilise a robot to monitor border regions. In this project, we'll demonstrate how to use an ESP32-CAM module and a few electronic sensors to build a clever military robot. Although the ESP32-CAM is a low power and low latency video streaming module and has GPIOs and serial connection, it does not appear powerful enough to handle some demanding real-time computer vision workloads.
Proceedings ArticleDOI
A. P*, Pradeep Kumar S, L. N., Rajini H, Saahithi S 
20 Nov 2022
TL;DR: In this article , a 13 level symmetric multi-level inverters, having a reduced number of switches by using particle swarm optimization technique, capacitors, diodes, are compared with other topologies and are simulated using MATLAB.
Abstract: Power electronic inverters are gaining extensive attention in various industrial drive applications. Incorporating renewable energy sources with energy storage devices with efficient power electronic converters overcomes the major difficulties associated with carbon foot prints. Multi-level inverters are designed to achieve high power ratings, with reduced number of switches. Many of the researchers are focusing on issues that can minimize harmonics in order to obtain higher voltage levels. In this paper 13 level symmetric multi-level inverters, having a reduced number of switches by using particle swarm optimization technique, capacitors, diodes, are compared with other topologies and are simulated using MATLAB. Microcontroller is used to develop the required gating pulses for the inverter switches. The prototype hardware is developed which generates 13 level output voltage and the effectiveness was demonstrated using harmonic analysis with THD of 3.36%.