University of Technology-IraqEngineering and Technology Journal1681-6900375A20190525Controlling the Q-Point in Distributed Feedback Lasers Using a Numerical Optimization Methodology14815616878010.30684/etj.37.5A.1ENHisham K.HishamElectrical Engineering Department, Faculty of Engineering, Basra University,Journal Article20180711<span>In this paper, a new methodology for controlling the Q-point in the distributed feedback (DFB) lasers is proposed. The method based on reducing the DFB transient period (TP) by optimizing laser’s model parameters numerically. The analysis has taken into account investigated the effects of the laser injection current (Iinj), the dc-bias level (Ibias), the temperature (T) variation, and the gain compression factor (ε). Results showed that by optimizing the value of Iinj, Ibias, T and ε; the Q-point could be controlled effectively. Where increasing the current ratio (i.e., Iinj/Ith) leads to reduce the TP value. In addition, by increasing Iinj and/or Ibias, the relaxation oscillation period (TRO) and the laser delay time (TDelay) are reduced significantly. From the other hand, the temperature varying may push the DFB laser to operate in an improper region through increasing the TP value; which may lead it to operate in the off-mode. Moreover, as ε is increased, the sinusoidal oscillations are dramatically damped results in a reduction in the TRO value and larger period of stabilized.</span>https://etj.uotechnology.edu.iq/article_168780_1bceecb9b4444db8ddc168fa179c8a76.pdfUniversity of Technology-IraqEngineering and Technology Journal1681-6900375A20190525Removal oil from produced water by using adsorption method with adsorbent a Papyrus reeds15716516878110.30684/etj.37.5A.2ENFiras K.Al-ZuhairiPetroleum Technology Department, University of TechnologyRana AzeezPetroleum Technology Department, University of TechnologySuhair A.MahdiDepartment of Chemistry College of Science, University of Al-MustansiriyahWafaa A.KadhimPetroleum Technology Department, University of TechnologyMuna Kh.Al-NaameePetroleum Technology Department, University of TechnologyJournal Article19700101<span>A papyrus reed, as a type of unusable farming waste, was used as a</span><br /><span>kind of low-cost biosorbent for the elimination a crude oil from produced water</span><br /><span>that was produced in an Al-Ahdab field, Iraq, in a batch stirred operation</span><br /><span>mode. Fourier transform infrared spectroscopy (FTIR) and scanning electron</span><br /><span>microscope (SEM) were used to characterize the biosorbent before and after</span><br /><span>adsorption. Batch tests were employed as a function of the contact time,</span><br /><span>adsorbent dose, and the pH of the solution. The experimental results show at</span><br /><span>increases the amount adsorbent dosage, pH and contact times, the removal</span><br /><span>efficiencies were increases and optimum condition was obtained at pH value</span><br /><span>equal to 9, 5000 ppm adsorbent dose and 45 minutes contact time for removal</span><br /><span>about 94.5% of crude oil, for test sample initial crude oil concentration 257.06</span><br /><span>ppm. Therefore it can be disposed of without environmental damage. The better</span><br /><span>fitting for equilibrium sorption process data was satisfactorily by the</span><br /><span>Freundlich isotherm model with (R2= 0.9665) and the adsorption kinetics best</span><br /><span>described by a pseudo-second-order kinetic model.</span>https://etj.uotechnology.edu.iq/article_168781_6ce7966cc287a557c75f237a8b0be995.pdfUniversity of Technology-IraqEngineering and Technology Journal1681-6900375A20190501Lung Cancer Detection from X-ray images by combined Backpropagation Neural Network and PCA16617116878210.30684/etj.37.5A.3ENIsraa S.AbedBiomedical Engineering Department, Al-Khwarizmi College of Engineering, University of BaghdadJournal Article20180924<span>The lungs are portion of a complex unit, enlarging and relaxing numerus times every day to supply oxygen and exude CO2. Lung disease might occur from troubles in any part of it. Carcinoma often called Cancer is the generally rising and it is the most harmful disease happened in humankind. Carcinoma occurs because of uncontrolled growth of malignant cells inside the tissues of the lungs. Earlier diagnosis of cancer can help save large numbers of lives, while any delay or fail in detection may cause additional serious problems leading to sudden fatal death. The objective of this study is to design an automated system with an ability to improve the detection process in order to perform advanced recognition of the disease. The diagnosis techniques include: X-rays, MRI, CT images etc. X-ray is the common and low-cost technique that is widely used and it is relatively available for everyone. Rather than new techniques like CT and MRI, X-ray is human dependable, meaning it needs a Doctor and X-ray specialist in order to determine lung cases, so developing a system which can enhance and aid in diagnosis, can help specialist to determine cases in easily.</span>https://etj.uotechnology.edu.iq/article_168782_60724506d4d6341c8a7cbeb462e3bc72.pdfUniversity of Technology-IraqEngineering and Technology Journal1681-6900375A20190501A Group Authentication Protocol on Multilayer Structure for Privacy-Preserving IoT Environment17218016878310.30684/etj.37.5A.4ENMaytham AzharFerdowsi University of MashhadAmin H.SenoFerdowsi University of MashhadJournal Article20181017<span>In the Internet of Things (IoT) systems, large amounts of data are accumulated from anywhere at any time, which may attack individuals' privacy, especially when systems are utilized in medical and everyday environments. With the promise of IoT's proactive systems, the integration of smart things into standard Internet creates several security challenges, because most Internet technologies, communication protocols and sensors are not designed to support IoT. Recent research studies have shown that launching security / privacy attacks against IoT active systems, in particular, Wearable Medical Sensor (WMS) systems, may lead to catastrophic situations and life-threatening conditions. Therefore, security threats and privacy concerns in the IoT area should be actively studied. This causes us in this paper to create a privacy authentication protocol for IoT end-devices on a four-layer structure that does not have the ability to accurately identify the device of request's sender so that some attacks can be minimized. We used the Blakley Sharing scheme to design a key generation and distribution system for secure communications between edge devices and end devices and examined the security properties of the protocol for the five common attacks in the IoT. The results of the experiments show that the proposed authentication protocol by the Blakley method is more efficient with increasing number of instructions in both fog structures and in a without fog structure, which shows a higher flexibility of the Blakley method than the Schemer because of the increasing number of instructions indicating increasing the number of nodes in the network.</span>https://etj.uotechnology.edu.iq/article_168783_9d3cbb45e37464e828aab21a93a8e737.pdfUniversity of Technology-IraqEngineering and Technology Journal1681-6900375A20190501Optimization Using Taguchi Method for Physical and Mechanical Properties of Bio Mimicking Polymeric Matrix Composite for Orthodontic Application18118716878410.30684/etj.37.5A.5ENJenan S.KashanBiomedical Engineering Department,University ofTechnology,Journal Article20181105<span>This work take in consideration the application of Taguchi optimization methodology in optimizing the parameters for processing (composition, compounding pressure) and their effects on the output physical (Density and true porosity) properties and mechanical(fracture strength and microhardness) properties for the Nano HA,Al2O3 fillers reinforced HDPE hybrid composite material for orthodontic application. An orthogonal array of the Taguchi approach was used to analyses the effect of the processing parameters on the physical and mechanical properties. On the other hand, the surface roughness and particle size distribution were also calculated to study their effect on the output properties. The result shows that the Taguchi approach can determine the best combination of processing parameters that can provide the optimal physical and mechanical conditions, which are the optimum values (the optimum composition was15HA/ 5Al2O3/80HDPE, and optimum compounding pressure was102 MPa.</span>https://etj.uotechnology.edu.iq/article_168784_042ac17e4e615832ae9831abadc260a8.pdf