Zahra Mohammadi scite author profile

Distributed quantum computing has been well-known for many years as a system composed of a number of small-capacity quantum circuits. Limitations in the capacity of monolithic quantum computing systems can be overcome by using distributed quantum systems which communicate with each other through known communication links. In our previous study, an algorithm with an exponential complexity was proposed to optimize the number of qubit teleportations required for the communications between two partitions of a distributed quantum circuit. In this work, a genetic algorithm is used to solve the optimization problem in a more efficient way. The results are compared with the previous study and we show that our approach works almost the same with a remarkable speed-up. Moreover, the comparison of the proposed approach based on GA with a random search over the search space verifies the effectiveness of GA.

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Screening, identification, and application of nucleic acid aptamers applied in food safety biosensing

Liu

Zhang

Sang

et al. 2022

Trends in Food Science & Technology

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A hybrid intelligent model combining ANN and imperialist competitive algorithm for prediction of corrosion rate in 3C steel under seawater environment

Shirazi

Mohammadi

2016

Neural Comput & Applic

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A novel and reliable computational intelligence system for breast cancer detection

Shirazi

Chabok

Mohammadi

2017

Med Biol Eng Comput

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Cancer is the second important morbidity and mortality factor among women and the most incident type is breast cancer. This paper suggests a hybrid computational intelligence model based on unsupervised and supervised learning techniques, i.e., self-organizing map (SOM) and complex-valued neural network (CVNN), for reliable detection of breast cancer. The dataset used in this paper consists of 822 patients with five features (patient's breast mass shape, margin, density, patient's age, and Breast Imaging Reporting and Data System assessment). The proposed model was used for the first time and can be categorized in two stages. In the first stage, considering the input features, SOM technique was used to cluster the patients with the most similarity. Then, in the second stage, for each cluster, the patient's features were applied to complex-valued neural network and dealt with to classify breast cancer severity (benign or malign). The obtained results corresponding to each patient were compared to the medical diagnosis results using receiver operating characteristic analyses and confusion matrix. In the testing phase, health and disease detection ratios were 94 and 95%, respectively. Accordingly, the superiority of the proposed model was proved and can be used for reliable and robust detection of breast cancer.

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Detection of food spoilage and adulteration by novel nanomaterial-based sensors

Mohammadi

Jafari

2020

Advances in Colloid and Interface Science

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Zahra Mohammadi

An Evolutionary Approach to Optimizing Teleportation Cost in Distributed Quantum Computation

Screening, identification, and application of nucleic acid aptamers applied in food safety biosensing

A hybrid intelligent model combining ANN and imperialist competitive algorithm for prediction of corrosion rate in 3C steel under seawater environment

A novel and reliable computational intelligence system for breast cancer detection

Detection of food spoilage and adulteration by novel nanomaterial-based sensors

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