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834 results on '"Askari, Hossein"'

1. Bi-level Guided Diffusion Models for Zero-Shot Medical Imaging Inverse Problems

Author

Askari, Hossein, Roosta, Fred, and Sun, Hongfu

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Machine Learning
Abstract

In the realm of medical imaging, inverse problems aim to infer high-quality images from incomplete, noisy measurements, with the objective of minimizing expenses and risks to patients in clinical settings. The Diffusion Models have recently emerged as a promising approach to such practical challenges, proving particularly useful for the zero-shot inference of images from partially acquired measurements in Magnetic Resonance Imaging (MRI) and Computed Tomography (CT). A central challenge in this approach, however, is how to guide an unconditional prediction to conform to the measurement information. Existing methods rely on deficient projection or inefficient posterior score approximation guidance, which often leads to suboptimal performance. In this paper, we propose \underline{\textbf{B}}i-level \underline{G}uided \underline{D}iffusion \underline{M}odels ({BGDM}), a zero-shot imaging framework that efficiently steers the initial unconditional prediction through a \emph{bi-level} guidance strategy. Specifically, BGDM first approximates an \emph{inner-level} conditional posterior mean as an initial measurement-consistent reference point and then solves an \emph{outer-level} proximal optimization objective to reinforce the measurement consistency. Our experimental findings, using publicly available MRI and CT medical datasets, reveal that BGDM is more effective and efficient compared to the baselines, faithfully generating high-fidelity medical images and substantially reducing hallucinatory artifacts in cases of severe degradation., Comment: 19 pages, 14 figures

Published
2024

7. Hybrid Inception Architecture with Residual Connection: Fine-tuned Inception-ResNet Deep Learning Model for Lung Inflammation Diagnosis from Chest Radiographs

Author

Neshat, Mehdi, Ahmed, Muktar, Askari, Hossein, Thilakaratne, Menasha, and Mirjalili, Seyedali

Subjects
Computer Science - Neural and Evolutionary Computing
Abstract

Diagnosing lung inflammation, particularly pneumonia, is of paramount importance for effectively treating and managing the disease. Pneumonia is a common respiratory infection caused by bacteria, viruses, or fungi and can indiscriminately affect people of all ages. As highlighted by the World Health Organization (WHO), this prevalent disease tragically accounts for a substantial 15% of global mortality in children under five years of age. This article presents a comparative study of the Inception-ResNet deep learning model's performance in diagnosing pneumonia from chest radiographs. The study leverages Mendeleys chest X-ray images dataset, which contains 5856 2D images, including both Viral and Bacterial Pneumonia X-ray images. The Inception-ResNet model is compared with seven other state-of-the-art convolutional neural networks (CNNs), and the experimental results demonstrate the Inception-ResNet model's superiority in extracting essential features and saving computation runtime. Furthermore, we examine the impact of transfer learning with fine-tuning in improving the performance of deep convolutional models. This study provides valuable insights into using deep learning models for pneumonia diagnosis and highlights the potential of the Inception-ResNet model in this field. In classification accuracy, Inception-ResNet-V2 showed superior performance compared to other models, including ResNet152V2, MobileNet-V3 (Large and Small), EfficientNetV2 (Large and Small), InceptionV3, and NASNet-Mobile, with substantial margins. It outperformed them by 2.6%, 6.5%, 7.1%, 13%, 16.1%, 3.9%, and 1.6%, respectively, demonstrating its significant advantage in accurate classification., Comment: Accepted at International Conference on Machine Learning and Data Engineering (ICMLDE 2023)

Published
2023

10. Correspondence

Author

Mertz, Robert A., Askari, Hossein G., Khazen, Farid el, Farsoun, Samih K., Wingerter, Rex B., Hamod, David A., Ghazzawi, Sarah, and Wrong, Terence H.

Published
2012
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11. Natural variation in photosynthesis and water use efficiency of locally adapted Persian walnut populations under drought stress and recovery

Author

Arab, Mohammad M, Askari, Hossein, Aliniaeifard, Sasan, Mokhtassi-Bidgoli, Ali, Estaji, Ahmad, Sadat-Hosseini, Mohammad, Sohrabi, Seyed Sajad, Mesgaran, Mohsen B, Leslie, Charles A, Brown, Patrick J, and Vahdati, Kourosh

Subjects
Plant Biology, Biological Sciences, Chlorophyll, Juglans, Droughts, Water, Photosynthesis, Plant Leaves, Climate change, Chlorophyll fluorescence, Drought stress, Gas exchange, Multivariate analysis, Network analysis, Chlorophyll fluorescence, Soil Sciences, Plant Biology & Botany, Plant biology
Abstract

Persian walnut is a drought-sensitive species with considerable genetic variation in the photosynthesis and water use efficiency of its populations, which is largely unexplored. Here, we aimed to elucidate changes in the efficiency of photosynthesis and water content using a diverse panel of 60 walnut families which were submitted to a progressive drought for 24 days, followed by two weeks of re-watering. Severe water-withholding reduced leaf relative water content (RWC) by 20%, net photosynthetic rate (Pn) by 50%, stomatal conductance (gs) by 60%, intercellular CO2 concentration (Ci) by 30%, and transpiration rate (Tr) by 50%, but improved water use efficiency (WUE) by 25%. Severe water-withholding also inhibited photosystem II functionality as indicated by reduced quantum yield of intersystem electron transport (φEo) and transfer of electrons per reaction center (ET0/RC), also enhanced accumulation of QA (VJ) resulted in the reduction of the photosynthetic performance (PIABS) and maximal quantum yield of PSII (FV/FM); while elevated quantum yield of energy dissipation (φDo), energy fluxes for absorption (ABS/RC) and dissipated energy flux (DI0/RC) in walnut families. Cluster analysis classified families into three main groups (tolerant, moderately tolerant, and sensitive), with the tolerant group from dry climates exhibiting lesser alterations in assessed parameters than the other groups. Multivariate analysis of phenotypic data demonstrated that RWC and biophysical parameters related to the chlorophyll fluorescence such as FV/FM, φEo, φDo, PIABS, ABS/RC, ET0/RC, and DI0/RC represent fast, robust and non-destructive biomarkers for walnut performance under drought stress. Finally, phenotype-environment association analysis showed significant correlation of some photosynthetic traits with geoclimatic factors, suggesting a key role of climate and geography in the adaptation of walnut to its habitat conditions.

Published
2023

14. Genome-wide association analysis and pathway enrichment provide insights into the genetic basis of photosynthetic responses to drought stress in Persian walnut

Author

Arab, Mohammad M, Brown, Patrick J, Abdollahi-Arpanahi, Rostam, Sohrabi, Seyed Sajad, Askari, Hossein, Aliniaeifard, Sasan, Mokhtassi-Bidgoli, Ali, Mesgaran, Mohsen B, Leslie, Charles A, Marrano, Annarita, Neale, David B, and Vahdati, Kourosh

Subjects
Plant Biology, Biological Sciences, Genetics, Human Genome, Horticultural production, Plant biology
Abstract

Uncovering the genetic basis of photosynthetic trait variation under drought stress is essential for breeding climate-resilient walnut cultivars. To this end, we examined photosynthetic capacity in a diverse panel of 150 walnut families (1500 seedlings) from various agro-climatic zones in their habitats and grown in a common garden experiment. Photosynthetic traits were measured under well-watered (WW), water-stressed (WS) and recovery (WR) conditions. We performed genome-wide association studies (GWAS) using three genomic datasets: genotyping by sequencing data (∼43 K SNPs) on both mother trees (MGBS) and progeny (PGBS) and the Axiom™ Juglans regia 700 K SNP array data (∼295 K SNPs) on mother trees (MArray). We identified 578 unique genomic regions linked with at least one trait in a specific treatment, 874 predicted genes that fell within 20 kb of a significant or suggestive SNP in at least two of the three GWAS datasets (MArray, MGBS, and PGBS), and 67 genes that fell within 20 kb of a significant SNP in all three GWAS datasets. Functional annotation identified several candidate pathways and genes that play crucial roles in photosynthesis, amino acid and carbohydrate metabolism, and signal transduction. Further network analysis identified 15 hub genes under WW, WS and WR conditions including GAPB, PSAN, CRR1, NTRC, DGD1, CYP38, and PETC which are involved in the photosynthetic responses. These findings shed light on possible strategies for improving walnut productivity under drought stress.

Published
2022

20. Concluding Remarks

Author

Askari, Hossein, Mirakhor, Abbas, Askari, Hossein, Series Editor, Zahedi, Dariush, Series Editor, and Mirakhor, Abbas

Published
2020
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29. Genome-wide association study and genotypic variation for the major tocopherol content in rice grain.

Author

Kazemzadeh, Sara, Farrokhi, Naser, Ahmadikhah, Asadollah, Heydar, Kourosh Tabar, Gilani, Abdolali, Askari, Hossein, and Ingvarsson, Pär K.

Subjects
LOCUS (Genetics), TRANSCRIPTION factors, GENOME-wide association studies, PROTEIN kinases, ATP-binding cassette transporters, VITAMIN E
Abstract

Rice tocopherols, vitamin E compounds with antioxidant activity, play essential roles in human health. Even though the key genes involved in vitamin E biosynthetic pathways have been identified in plants, the genetic architecture of vitamin E content in rice grain remains unclear. A genome-wide association study (GWAS) on 179 genotypically diverse rice accessions with 34,323 SNP markers was conducted to detect QTLs that define total and a-tocopherol contents in rice grains. Total and a-tocopherol contents had a strong positive correlation and varied greatly across the accessions, ranging from 0.230-31.76 and 0.011-30.83 (mg/g), respectively. A total of 13 QTLs were identified, which were spread across five of the rice chromosomes. Among the 13 QTLs, 11 were considered major with phenotypic variation explained (PVE) greater than 10%. Twelve transcription factor (TF) genes, one microprotein (miP), and a transposon were found to be associated with the QTLs with putative roles in controlling tocopherol contents. Moreover, intracellular transport proteins, ABC transporters, nonaspanins, and SNARE, were identified as associated genes on chromosomes 1 and 8. In the vicinity of seven QTLs, protein kinases were identified as key signaling factors. Haplotype analysis revealed the QTLs qAlph1.1, qTot1.1, qAlph2.1, qAlph6.1, qTot6.1, and qTot8.3 to have significant haplogroups. Quantitative RT-PCR validated the expression direction and magnitude of WRKY39 (Os02g0265200), PIP5Ks (Os08g0450800), and MADS59 (Os06g0347700) in defining the major tocopherol contents. This study provides insights for ongoing biofortification efforts to breed and/or engineer vitamin E and antioxidant levels in rice and other cereals. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Conclusion

Author

Mirakhor, Abbas, Askari, Hossein, Askari, Hossein, Series Editor, Zahedi, Dariush, Series Editor, and Mirakhor, Abbas

Published
2019
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38. Introduction

Author

Mirakhor, Abbas, Askari, Hossein, Askari, Hossein, Series Editor, Zahedi, Dariush, Series Editor, and Mirakhor, Abbas

Published
2019
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41. The Broad Results

Author

Askari, Hossein, Mohammadkhan, Hossein, Mydin, Liza, Askari, Hossein, Series editor, Zahedi, Dariush, Series editor, Mohammadkhan, Hossein, and Mydin, Liza

Published
2017
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44. Conclusion

Author

Askari, Hossein, Mohammadkhan, Hossein, Mydin, Liza, Askari, Hossein, Series editor, Zahedi, Dariush, Series editor, Mohammadkhan, Hossein, and Mydin, Liza

Published
2017
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46. Support from the Great Powers

Author

Askari, Hossein, Mohammadkhan, Hossein, Mydin, Liza, Askari, Hossein, Series editor, Zahedi, Dariush, Series editor, Mohammadkhan, Hossein, and Mydin, Liza

Published
2017
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48. Introduction

Author

Askari, Hossein, Mohammadkhan, Hossein, Mydin, Liza, Askari, Hossein, Series editor, Zahedi, Dariush, Series editor, Mohammadkhan, Hossein, and Mydin, Liza

Published
2017
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50. Conclusions

Author

Mirakhor, Abbas, Askari, Hossein, Askari, Hossein, Series editor, Zahedi, Dariush, Series editor, and Mirakhor, Abbas

Published
2017
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