Search

Your search keyword '"Mohammed Rana"' showing total 160 results
Start Over Author "Mohammed Rana" Publication Year Range Last 50 years

Refine your results

160 results on '"Mohammed Rana"'

5. A Robust Hybrid Machine and Deep Learning- based Model for Classification and Identification of Chest X-ray Images.

Author

Mohammed, Rana Jassim, Jassim Ghrabat, Mudhafar Jalil, Abduljabbar, Zaid Ameen, Nyangaresi, Vincent Omollo, Abduljaleel, Iman Qays, Ali, Ali Hasan, Honi, Dhafer G., and Neamah, Husam A.

Subjects
COVID-19, COMPUTER-aided diagnosis, THERAPEUTICS, COVID-19 treatment, RESPIRATORY organs, DEEP learning
Abstract

Successful medical treatment for patients with COVID-19 requires rapid and accurate diagnosis. Fighting the COVID-19 pandemic requires an automated system to diagnose the virus on Chest X-Ray (CXR) images. CXR images are frequently used in healthcare as they offer the potential for rapid and accurate disease diagnosis. SARS-CoV-2 targets the respiratory system, resulting in pneumonia with additional symptoms, such as dry cough, fatigue, and fever, which could be misdiagnosed as pneumonia, TB, or lung cancer. There is difficulty in differentiating the features of COVID-19 from other diseases that have similarities in CXR images. Automated Computer-Aided Diagnosis (CAD) systems incorporate machine or deep learning methods to improve efficiency and accuracy. CNNs are among the most widely used methods, as they have shown encouraging accuracy in identifying COVID-19 in CXR images. This study presents a hybrid deep learning model to provide faster diagnosis of COVID-19 infection using CXR images. The Densenet201 model was used for feature extraction and a Multi-Layer Perceptron (MLP) was used for classification. The proposed method achieved 98.82 % accuracy and similar sensitivity, specificity, precision, recall, and F1 score. These results are promising when compared to other DL models trained in similar datasets. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

11. The Association between Single Nucleotide Polymorphisms rs1042522 and rs1642785 in the TP53 gene and Acute Myeloid leukemia in a sample of the Baghdad/ Iraq population.

Author

Dawood, Hadeel Hameed and Mohammed, Rana Kadhim

Subjects
SINGLE nucleotide polymorphisms, ACUTE myeloid leukemia, TUMOR suppressor genes, ACUTE leukemia, GENES, IRAQIS
Abstract

Copyright of Baghdad Science Journal is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
Full Text
View/download PDF

18. Effect of L-cysteine capping the CdSe, CdSe:CdS on structural and morphological properties.

Author

Al-Beayaty, Mohammed Ali H., Abbas, Lamiaa K. H., and Mohammed, Rana Kadhim

Subjects
X-ray diffraction, NANOSTRUCTURES
Abstract

In this work the CdSe pure and CdSe: CdS Core / shell nanostructures before and after capping of the L-Cysteine material was studied, and prepared using the chemical bath technique. Also, studied the effects L-Cysteine layer binding with QDs. XRD, FTIR, SEM and EDX properties before and after adding of the L-Cysteine have been investigations. Also, the effects of the L-Cysteine layer binding with QDs were studied. XRD and SEM measurements confirmed core and core/shell structure formation for all samples. FTIR and EDX analysis confirmed the binding of the L-Cysteine layer to the core and core/shell structure for all samples. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

20. The Correlation Study between TP53 Gene Expression and Acute Myeloid Leukemia in Iraq.

Author

Dawood, Hadeel Hameed and Mohammed, Rana Kadhim

Subjects
*ACUTE myeloid leukemia, *GENE expression, *ACUTE leukemia, *TUMOR proteins
Abstract

Acute myeloid leukemia represents the most prevalent type of acute leukemia in adults .Mutations in the tumor protein (TP53) gene have been found in more than half of all human cancers. This study was done to investigate the relationship between TP53 gene expression and the appearance and progression of acute myeloid leukemia in Iraq. This study included 100 subjects, divided into 60 patients suffering from pre-diagnostic acute myeloid leukemia and 40 healthy individuals. The difference in TP53 gene expression between acute myeloid leukemia patients and healthy individuals has been investigated, and the gene expression of TP53 has been measured after extraction of total RNA at concentrations (15–83 ng/µl) and purity (1.76-2). Gene expression has involved calculating the double ΔCt value to assess TP53 expression in the presence of the GAPDH gene as a reference gene. Results showed that gene expression folding (2-∆∆Ct) reflects significant differences in TP53 gene expression. There was overexpression (up-regulation) of the TP53 gene in acute myeloid leukemia patients (mean ± SD: 2.29±2.12) compared with controls (1 ± 0.43), with a p=0.04. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

23. Molecular Study of Mycobacterium Tuberculosis Infection in TB Centers , Ninava

Author

Hammad Shihab Ahmed, Hasson, Rasha Nazar, and Mohammed, Rana Ibrahim

Abstract

Tuberculosis (TB) is one of the main health concerns in many countries. Researches on TB care quality and patient survival are a lot but still TB represents a huge health concern. Owing to this, the study evaluates the methods used to detect TB patients as well as the impact of risk factors that are related to the life of patients. The study includes 496 patients whose recorded tuberculosis cases attended Mosul Respiratory infectious Center. Data were analysed using Gene x-pert method ( kits obtained from Sacace) Biotechnologies, and acid-fast stain method (Ziehl–Neelsen stain). Later, these methods are compared among the patients. The comparison held showed that the Specimens collection of 496 were processed for the detection of tuberculosis using GENE X-PERT was more sensitive than Acid-fast stain with a percentage rate (of 26.35%), (22.55%) respectively. A high percentage of tuberculosis can be found in the age group between (10-20 years), (and 90-100 years) and a low percentage can be found in younger people. The demographic distribution of tuberculosis is more in low-income and overcrowded societies which recorded a significant increase of prevalence. It is concluded that the GENE X-PERT technique is fast, accurate, and effective in the detection of tuberculosis for a period not exceeding 4 hours only. In addition, it is an easy-to-use method with a relatively low cost, and it can be performed in low-income areas. electronic document is a “live” template. The various components of your paper [title, text, heads, etc.] are already defined on the style sheet, as illustrated by the portions given in this document. This electronic document is a “live” template. The various components of your paper [title, text, heads, etc.] are already defined on the style sheet, as illustrated by the portions given in this document. This electronic document is a “live” template. The various components of your paper [title, text, heads, etc.] are already defined on the style sheet, as illustrated by the portions given in this document. This electronic document is a “live” template. The various components of your paper [title, text, heads, etc.] are already defined on the style sheet, as illustrated by the portions given in this document. &nbsp

Published
2023
Full Text
View/download PDF

35. Structure-processing-performance nexus of solution processed organic thin films

Author

Abdelaleim Mohammed, Rana Adel, Campoy-Quiles, Mariano, Martinez Ferrero, Eugenia, Stella, Marco, and Campoy Quiles, Mariano

Subjects
Ciències Socials, Fotovoltaica organica, Organic photovoltaics, Fotovoltaica orgànica
Abstract

L’eficiència de la fotovoltaica orgànica està augmentant ràpidament, però el seu rendiment en dispositius a gran escala i la seva estabilitat són molt difícils d’aconseguir. El desenvolupament de la tecnologia fotovoltaica ha estat intens, abordant problemes crítics mitjançant l’augment d’escala dels mòduls OPV des de dispositius a escala de laboratori fins a mòduls a escala industrial. L’assoliment de processos d’impressió i recobriment fiables per a mòduls a gran escala ha estat un repte fins ara i, per tant, ha estat el tema de recerca d’aquesta tesi. Roll-to-roll és una tècnica de processament aplicada en aquesta tesi per aconseguir una solució d’alt rendiment per a mòduls OPV a gran escala. En aquest treball s’han demostrat mòduls OPV basats en P3HT: PCBM i P3HT:o-IDTBR sobre un substrat flexible, obtinguts a gran escala. La nova metodologia destaca els reptes per ampliar els petits dispositius de laboratori a mòduls més grans. Entendre els passos crítics en el procés d’augment d’escala és decisiu per abordar els esforços de recerca per reduir la bretxa esmentada. En un capítol, analitzem les pèrdues d’eficiència associades a diversos dels passos principals implicats en la via d’augment d’escala dels dispositius OPV, des del recobriment per doctor blade a escala de laboratori fins al recobriment preindustrial fet per roll-to-roll. Mostrem que quan s’utilitzen materials a la capa activa per als quals el rendiment és tolerant a les variacions de gruix/microestructura, els passos crítics estan relacionats amb les capes de bloqueig dels portadors de càrrega, així com les pèrdues potencials degudes a l’absorció parasitària als elèctrodes. També hem investigat l’empaquetament molecular de les molècules petites i la seva correlació amb el rendiment del dispositiu. Les nostres dades suggereixen que la cristalinitat tant del donant d’electrons com de l’acceptor d’electrons són una font de separació i recombinació de fases i, per tant, a més de l’alineació del nivell d’energia, s’ha d’aconseguir una estructura òptima d’ordenació entre el donant i l’acceptador d’electrons. Hem aconseguit la nostra investigació obtenint els espectres d’absorció òptica tant en estat sòlid com en solució, voltammetria cíclica i GIWAXS per a les pel·lícules en estat sòlid. S’ha investigat no només el processament dels mòduls, sinó també la seva geometria i els resultats es reporten en un tercer capítol. La geometria de l’elèctrode impresa per la serigrafia es va optimitzar per obtenir un millor rendiment fotovoltaic dels mòduls OPV. A més, s’ha realitzat un estudi comparatiu dels diferents materials dels elèctrodes serigrafiats. El millor mòdul OPV va mostrar un valor PCE de l’1% en condicions AM 1.5. La degradació dels mòduls fotovoltaics processats en solució segueix sent un problema dominant per a acomplir les exigències industrials. Atès que la degradació dels mòduls es correlaciona principalment amb els components de la capa activa, també hem investigat i comparat la degradació dels mòduls roll-to-roll basats en heterounions fetes amb acceptors de fullerè i no fullerè (P3HT: PCBM P3HT: o-IDTBR, respectivament). per tenir més coneixements per millorar la vida útil dels mòduls OPV per a l’aplicació a escala industrial. S’utilitzen dos tipus de sistemes d’encapsulació (només PET i làmina de barrera) per aïllar els mòduls de les condicions ambientals, com ara la difusió d’oxigen i humitat als mòduls OPV. Els mòduls basats en P3HT: PCBM i P3HT:o-IDTBR, encapsulats amb làmina de barrera han mostrat activitat fins a 522 i 249 hores, respectivament, mentre que els mòduls encapsulats amb làmina de PET van mostrar activitat durant 21 hores. A més, no només es va trobar que els components de la capa fotoactiva eren responsables del procés de degradació, sinó que també hi va tenir un paper la capa transportadora de buits. La eficiencia de la energía fotovoltaica orgánica está aumentando rápidamente, sin embargo, su rendimiento en dispositivos a gran escala y su estabilidad todavía suponen un reto. El desarrollo de la tecnología fotovoltaica ha sido intenso durante los últimos años, abordando problemas críticos a través del aumento del tamaño de los módulos OPV desde dispositivos a escala de laboratorio a módulos a escala industrial. El logro de procesos fiables de impresión y recubrimiento para módulos a gran escala ha sido un desafío hasta el momento y, por lo tanto, ha sido el tema de investigación de esta tesis. La técnica de roll-to-roll es una técnica de procesamiento aplicada en esta tesis para lograr una solución de alto rendimiento para módulos OPV a gran escala. En este trabajo se ha demostrado la fabricación de módulos OPV basados en P3HT: PCBM y P3HT:o-IDTBR sobre un sustrato flexible, obtenidos a gran escala (Capítulo 3). La nueva metodología destaca los desafíos para escalar los pequeños dispositivos de laboratorio a módulos más grandes. Comprender los pasos críticos en el proceso de escalado es decisivo para abordar los esfuerzos de investigación y así disminuir la brecha antes mencionada. En el Capítulo 5, analizamos las pérdidas de eficiencia asociadas con varios de los pasos principales involucrados en el proceso de escalado de los dispositivos OPV, desde el recubrimiento por doctor blade a escala de laboratorio hasta el recubrimiento por roll-to-roll preindustrial. En el capítulo, demostramos que cuando se utilizan materiales en la capa activa cuyo rendimiento es tolerante con respecto a variaciones de espesor/microestructura, los pasos críticos están relacionados con las capas de bloqueo de portadores de carga, así como con las pérdidas potenciales debidas a la absorción parásita en los electrodos. También investigamos el empaquetamiento molecular de las moléculas pequeñas y su correlación con el rendimiento del dispositivo en el Capítulo 4. Nuestros datos sugieren que la cristalinidad tanto del donante de electrones como del aceptor de electrones es una fuente de separación y recombinación de fases y, por lo tanto, además de la alineación del nivel de energía, se debe lograr una estructura de ordenamiento óptima entre el donante de electrones y el aceptor de electrones. Apoyamos nuestra investigación obteniendo los espectros de absorción óptica tanto en solución como en estado sólido, voltamperometría cíclica y GIWAXS para las películas en estado sólido. No solo se ha investigado el procesamiento de los módulos sino también su geometría y los resultados se reportan en un tercer capítulo. Se optimizó la geometría de los electrodos impresos por la serigrafía para obtener un mejor rendimiento fotovoltaico de los módulos OPV. Además, se ha realizado un estudio comparativo de los diferentes materiales de electrodos serigrafiados. El módulo OPV más eficiente mostró un valor de PCE del 1% en condiciones AM 1.5. La degradación de los módulos fotovoltaicos procesados en solución sigue siendo un problema crucial para poder cumplir con los requisitos industriales que hemos tratado en el Capítulo 6. Dado que la degradación de los módulos se correlaciona principalmente con los componentes de la capa activa, hemos investigado y comparado también la degradación de los módulos preparados por roll-to-roll basados en heterouniones formadas por aceptores de fullereno y no fullereno (P3HT: PCBM P3HT:o-IDTBR, respectivamente)para tener más información para mejorar la vida útil de los módulos OPV para la aplicación a escala industrial. Se utilizan dos tipos de sistemas de encapsulación (solo PET y lámina de barrera) para aislar los módulos de las condiciones ambientales, como la difusión de oxígeno y humedad en los módulos OPV. Los módulos basados en P3HT: PCBM y P3HT:o-IDTBR, encapsulados con lámina de barrera, han mostrado actividad hasta 522 The efficiency of the organic photovoltaics is rapidly increasing. Their performance in large-scale devices and their stability is, however, still highly challenging. The development of photovoltaic technology has been intense, addressing critical issues through the upscaling of OPVs from lab scale devices to industrial scale modules. The achievement of reliable printing and coating processes for large-scale modules has been challenging thus far, and it has been therefore one of the main topics of research in this thesis. Roll-to-roll is a processing technique applied in this thesis to achieve high throughput solution for large-scale OPV modules. OPV modules based on P3HT: PCBM and P3HT:o-IDTBR on a flexible substrate, obtained at large-scale, have been demonstrated in this work (Chapter 3). New methodology highlights the challenges to scale up the small lab devices to larger modules. Understanding the critical steps in the upscaling process is decisive to address the research efforts towards decreasing the aforementioned gap. In Chapter 5, we quantify the efficiency losses associated with several of the main steps involved in the up-scaling pathway of the OPV devices, from lab-scale blade coating to pre-industrial slot die roll-to-roll coating. We show that when using materials in the active layer for which the performance is tolerant to thickness/microstructure variations, the critical steps are related to the charge carrier blocking layers, as well as potential losses due to parasitic absorption in the electrodes. We have also investigated the molecular packing of the small molecules and its correlation with the device’s performance in Chapter 4. Our data suggest that the crystallinity tendency of both electron donor and electron acceptor are a source of phase separation and recombination, and thus besides energy level alignment, an optimum of ordering structure between the electron donor and the electron acceptor have to be achieved. We supported our investigation by obtaining the optical absorption spectra in both solution and solid states, cyclic voltammetry and GIWAXS for the solid-state films. Not only the modules processing but also their geometry has been investigated and the results reported in the third chapter. The electrode geometry printed by the screen printer was optimized to obtain better photovoltaic performance of OPV modules. In addition, a comparative study of the different screen-printed electrode materials has been carried out. The fabricated OPV modules showed PCE values of ca 1% under AM 1.5 conditions. The degradation of solution processed photovoltaic modules is still a dominant issue for the industrial requirement, and the topic of Chapter 6. Since the degradation of the modules is mainly correlated to the active layer components, we have investigated and compared as well the degradation of roll-to-roll modules based on fullerene and non-fullerene acceptors (P3HT: PCBM P3HT:o-IDTBR, respectively) heterojunctions to have more insights for improving the lifetime the OPV modules for the industrial scale application. Two types of encapsulation systems (PET only and barrier foil) were used to isolate the modules from the environmental conditions, minimizing diffusion of oxygen and humidity into OPV modules. Modules based on P3HT: PCBM and P3HT:o-IDTBR, encapsulated with barrier foil have shown activity up to 522 and 249 hours, respectively, while modules encapsulated with PET foil showed activity for 21 hours. In addition, not only the photoactive layer components were found to be responsible for the degradation process but also the HTL had a role in the resulting stability. Universitat Autònoma de Barcelona. Programa de Doctorat en Ciència de Materials

Published
2022

38. Lightweight Authentication Enhancement Using Arnold Chaotic Map and Markov-Chain for Internet of Things Applications.

Author

Ahmed, Waleed Kareem. and Mohammed, Rana Saad

Subjects
INTERNET of things, RADIO frequency identification systems, DATABASES, DATA security, MARKOV processes, TECHNOLOGY transfer, MOBILE apps
Abstract

The Internet of Things (IoT) was a new concept that connected various physical things to the internet. The IoT is fast expanding and will soon significantly impact everyday life. Although the increasing number of connected IoT devices is simplifying life, they risk our data. Radiofrequency identification (RFID) assists in the automated identification of connected IoT devices. Furthermore, the primary challenges for RFID tag-connected technology are privacy and security. With the improving safety of solutions RFID for many apps, RFID necessitates a centralized database widening. Blockchain techniques are speedily establishing themselves together as a new distributed and decentralized replacement. And it provides enhanced transparency, data security, immutability, dependability, and lower maintenance costs. Because of its inherent benefits, RFID is projected to play a significant part in enabling identifying technology on the IoT. However, due to its association with sensor technology, it has the potential to be applied in a wide range of industries. Security, however, is one of the more complex components of creating an RFID system. RFID Security focuses around authentication and privacy concerns. From the previous works, we found that the computing cost and uptime are higher. To solve these problems, we offer improving lightweight authentication using Arnold Chaotic map and Markov chain for IoT applications. The proposed method uses random algorithms (Markova chain, Arnold map chaotic, and ECC), which add high security. We also used blockchain technology to transfer keys through a non-security channel. Based on parameters such as (communication cost, throughput rate, storage requirements, transmission delay, and computational cost) the results of the proposed RFID protocol were compared with several RFID-based security solutions. As a result, the proposed lightweight scheme is more efficient and secure than existing RFID systems in terms of performance, according to simulation results, and is fully compatible with actual applications. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

39. Design a Lightweight Authentication Encryption Based on Stream Cipher and Chaotic Maps with Sponge Structure for Internet of Things Applications.

Author

Mohammed, Rana Saad

Subjects
STREAM ciphers, INTERNET of things, IMAGE encryption, BLOCK ciphers, DATA encryption, STIMULUS & response (Psychology)
Abstract

The design of a cipher system is essential and required with the development of the technology era. The internet of things concept is modern technology requiring lightweight, secure algorithms to investigate the requirement of the light device. Furthermore, IoT devices have limited resources (IoT devices should minimize battery life, limited memory size, and response time). A stream cipher system is faster than a block cipher system and has an easy feature with hardware and software implementation. This paper designs a lightweight authentication encryption algorithm based on stream cipher and chaotic maps with sponge structure for IoT applications. Currently, the suggested approach uses text data for encryption and authorization. Additionally, the suggested algorithm will be able to use it with image data in the future. Analysis results of the proposed algorithm based on NIST randomness tests, execution time, memory space, and functional features. The results are compared with other previous works which used sponge structure (e.g. Ascon, Elephant, ISAP, Photon-Beetle, and Xoodyak, etc.). Randomness tests show that the proposed system is random and secure with investigate all the functional features except the parallelization feature which will work it in the future. And also it has good fast speed and less memory space. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results