Dalal Abdulmohsin Hammood scite author profile

Dalal Abdulmohsin Hammood

5Publications

45Citation Statements Received

85Citation Statements Given

How they've been cited

How they cite others

143

Affiliations

Middle Technical University, Universiti Malaysia Perlis, Iraqi University

Publications

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Enhancement of the Duty Cycle Cooperative Medium Access Control for Wireless Body Area Networks

et al. 2019

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This paper presents a novel energy-efficient and reliable connection to enhance the transmission of data over a shared medium for wireless body area networks (WBAN). We propose a novel protocol of two master nodes-based cooperative protocol. In the proposed protocol, two master nodes were considered, that is, the belt master node and the outer body master node. The master nodes work cooperatively to avoid the retransmission process by sensors due to fading and collision, reducing the bit error rate (BER), which results in a reduction of the duty cycle and average transmission power. In addition, we have also presented a mathematical model of the duty cycle with the proposed protocol for the WBAN. The results show that the proposed cooperative protocol reduced the BER by a factor of 4. The average transmission power is reduced by a factor of 0.21 and this shows the potential of the proposed technique to be used in future wearable wireless sensors and systems. INDEX TERMS Wireless body area network, cooperative communication, duty cycle, bit error rate, average transmission power, energy efficiency.

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Critical Data-Based Incremental Cooperative Communication for Wireless Body Area Network

Al-Mishmish

Akhayyat

Rahim

et al. 2018

Sensors

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Wireless Body Area Networks (WBANs) are single-hop network systems, where sensors gather the body’s vital signs and send them directly to master nodes (MNs). The sensors are distributed in or on the body. Therefore, body posture, clothing, muscle movement, body temperature, and climatic conditions generally influence the quality of the wireless link between sensors and the destination. Hence, in some cases, single hop transmission (‘direct transmission’) is not sufficient to deliver the signals to the destination. Therefore, we propose an emergency-based cooperative communication protocol for WBAN, named Critical Data-based Incremental Cooperative Communication (CD-ICC), based on the IEEE 802.15.6 CSMA standard but assuming a lognormal shadowing channel model. In this paper, a complete study of a system model is inspected in the terms of the channel path loss, the successful transmission probability, and the outage probability. Then a mathematical model is derived for the proposed protocol, end-to-end delay, duty cycle, and average power consumption. A new back-off time is proposed within CD-ICC, which ensures the best relays cooperate in a distributed manner. The design objective of the CD-ICC is to reduce the end-to-end delay, the duty cycle, and the average power transmission. The simulation and numerical results presented here show that, under general conditions, CD-ICC can enhance network performance compared to direct transmission mode (DTM) IEEE 802.15.6 CSMA and benchmarking. To this end, we have shown that the power saving when using CD-ICC is 37.5% with respect to DTM IEEE 802.15.6 CSMA and 10% with respect to MI-ICC.

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Cryptanalysis cipher text using new modeling: Text encryption using elliptic curve cryptography

Naji¹,

Hammood²,

Atee³

et al. 2020

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A Review and Taxonomy of Image Denoising Techniques

Jebur

Chen

Hammood

2020

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OTP encryption enhancement based on logical operations

Mezaal

Hammood

Ali

2016

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With continuous development of hacking technologies, it is necessary to provide users with a protected background that secures their resources against unlawful access by enforcing control mechanisms. To neutralize such these threats, the enhanced one time pad (OTP) technique has been introduced. Accordingly, to encrypt text, the key is combined with the message. The key length has to have a same length of the message.In this paper, a new method to enhance OTP data encryption using AND and XOR functions has been adopted. Firstly, message and original key are combined by logical AND operation, then the new text will be XORed with a key again to produce more complicated cipher.

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