MIMO-OFDM Systems Performance Enhancement Based Peaks Detection Algorithm

Daoud, Omar; Hamarsheh, Qadri; Al-Sawalmeh, Wael

doi:10.3991/ijim.v7i3.2302

Cited by 2 publications

(2 citation statements)

References 9 publications

(11 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Daoud et. al [23] developed a new algorithm to enhance the performance of the speaker verification over the communication systems based MIMO-OFDM techniques.…”

Section: Reddy and Lakshmimentioning

confidence: 99%

Untitled

2019

IJMNCT

View full text Add to dashboard Cite

This paper simulates and investigates the performance of four widely-used channel estimation techniques for MIMO-OFDM wireless communication systems; namely, super imposed pilot (SIP), comb-type, spacetime block coding (STBC), and space-frequency block coding (SFBC) techniques. The performance is evaluated through a number of MATLab simulations, where the bit-error rate (BER) and the mean square error (MSE) are estimated and compared for different levels of signal-to-noise ratio (SNR). The simulation results demonstrate that the comb-type channel estimation and the SIP techniques overwhelmed the performance of the STFC and STBC techniques in terms of both bit-error rate (BER) and mean square error (MSE).

show abstract

“…Daoud et. al [23] developed a new algorithm to enhance the performance of the speaker verification over the communication systems based MIMO-OFDM techniques.…”

Section: Reddy and Lakshmimentioning

confidence: 99%

Untitled

2019

IJMNCT

View full text Add to dashboard Cite

show abstract

“…The IEEE 802.11n MAC also proposed the enhanced distributed channel access (EDCA) method, which is used to provide different quality of service (QoS) levels for multimedia traffic. The IEEE 802.11n PHY provided 20/40 MHz channel bandwidth, 800/400 ns guard interval (GI), and multiple input multiple output (MIMO) transmission systems with up to four spatial streams [2], [27]. Based on these developments, the PHY of IEEE 802.11n has 128 data rate options ranging from 6.5 Mbps to 600 Mbps.…”

Section: Introductionmentioning

confidence: 99%

CARA-OHT: Collision-Aware Rate Adaptation for Optimal High-Throughput in IEEE 802.11s Wireless Mesh Networks

Arif

Munandar

Adriman

et al. 2020

Int. J. Interact. Mob. Technol.

View full text Add to dashboard Cite

The wireless mesh network (WMN) is a future network technology that develops single-hop wireless local area networks (WLANs) into multi-hop wireless mesh networks, based on the IEEE 802.11s standard. However, this development still presents many challenges, such as determining the best route between sources and destinations, especially taking into account the use of the medium access control (MAC) and physical (PHY) layers of IEEE 802.11n/ac. Some papers have proposed rate adaptation algorithms particularly for single-hop networks; however, these only focused on mechanisms to find data rates suitable for channel conditions. In IEEE 802.11s WMNs, the design of the rate adaptation algorithm is more challenging. Besides considering the problem of channel quality and optimal throughput, it is necessary to also consider the problem of collision and the best route. It is important to take collision into account because the collision probability in multi-hop mesh networks is higher than that in single-hop networks and can lead to a lower throughput. Rate adaptation algorithms for IEEE 802.11s WMNs have been proposed in other papers, but they also do not consider the use of the MAC and PHY layers of IEEE 802.11n/ac. In this paper, we propose the collision-aware rate adaptation for optimal high-throughput (CARA-OHT) algorithm for WMN IEEE 802.11s. An evaluation through the extensive use of a network NS-3 simulator shows that the proposed algorithm exhibits a higher throughput than previously developed algorithms.

show abstract

MIMO-OFDM Systems Performance Enhancement Based Peaks Detection Algorithm

Cited by 2 publications

References 9 publications

Untitled

Untitled

CARA-OHT: Collision-Aware Rate Adaptation for Optimal High-Throughput in IEEE 802.11s Wireless Mesh Networks

Contact Info

Product

Resources

About