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Md Shadikul Bari

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Professional Summary

Accomplished IT researcher and QA Automation Engineer with over 2 years of professional experience in systems architecture, cloud computing, cybersecurity, and AI-driven solutions. Published six peer-reviewed research papers focusing on cutting-edge technologies.

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Contact Information

Education

  • Master of Science in Information Technology, Washington University of Science and Technology, Virginia, USA (2023)
  • Master of Science in Computer Science and Technology, Daffodil International University (2021)
  • Bachelor of Science in Computer Science and Technology, Daffodil International University (2019)

Professional Experience

QA Automation Engineer, Agile One Tech, Fairfax, VA (2023 – Present)

  • Designed and implemented test automation frameworks for complex applications
  • Conducted comprehensive manual and automated testing for web and mobile platforms
  • Optimized CI/CD pipelines to streamline testing processes
  • Leveraged AI-driven methodologies for self-healing automation frameworks

Research Publications

  1. AI-Augmented Self-Healing Automation Frameworks: Revolutionizing QA Testing with Adaptive and Resilient Automation
  2. AI-Driven Threat Intelligence: Transforming Cybersecurity for Proactive Risk Management in Critical Sectors
  3. AI-Driven Predictive Analytics for Enhancing Cybersecurity in a Post-Pandemic World: A Business Strategy Approach
  4. Circular Economy Models in Renewable Energy: Technological Innovations and Business Viability
  5. Artificial Intelligence in Fraud Detection and Financial Risk Mitigation: Future Directions and Business Applications
  6. Leveraging Blockchain for Transparent and Efficient Supply Chain Management: Business Implications and Case Studies

Skills

  • Programming & Tools: Python, Java, Selenium, Jenkins, JIRA, XAMPP
  • Technologies: AI/ML, Blockchain, Cloud Computing, Edge Computing, CI/CD Pipelines
  • Research Areas: Predictive Analytics, Cybersecurity, Fraud Detection, Renewable Energy, Supply Chain Management
  • Soft Skills: Collaboration, Critical Thinking, Research Analysis, Leadership

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EQiblyter

with the Balanset-1A Device

Getting the Equipment Ready

accelerometers, laser rpm sensor, mounting stand, software application, and additional tools.
Connect the device to your PC using the USB interface and confirm the software installation.

Sensor Installation

Attach the vibration sensors firmly to the machine casing in areas with the highest vibration amplitude, usually close to the bearing supports.
Direct the laser speed sensor towards the rotor and affix reflective tape to the rotor surface to facilitate phase angle measurement.

Starting the Program

Open the Balanset application on your PC.
Choose the correct balancing method (single or two-plane) according to the rotor configuration and the balancing task.

Operate the rotor at its intended working speed.
The application will acquire data on vibration magnitude, rotational velocity, and phase angle to determine the initial imbalance state.

Trial Weight Installation

Halt the rotation and mount a test weight at a designated position on the rotor, with the weight’s value entered into the software (usually in grams).
Run the rotor again, allowing the software to measure the effects of the trial weight on vibration and phase.

Computing the Compensating Weight

Based on the measured data, the software automatically calculates the correction weight parameters: mass and installation angle.
The calculated values are presented on-screen in both numerical and graphical formats.

Installing the Correction Weight

Mount the calculated corrective weight onto the rotor at the specified location and angle.
If necessary, perform intermediate checks to verify that the imbalance is being reduced.

Verification and Balancing Completion

After installing the correction weight, run the rotor again and check the residual vibration level.
If the measured vibration falls within the tolerance defined by ISO 1940, the balancing process is considered successful.
Should the vibration still be excessive, repeat the balancing steps, making further adjustments to the corrective weight as needed.

Creating a Balancing Report

The program stores the balancing data, allowing you to generate and print a comprehensive report including vibration measurements, corrective weight details, and its angular placement.

Post-Balancing Checklist

Double-check that all weights and sensors are securely fastened.
Confirm that the rotor spins freely and quietly, without any unusual sounds or vibrations.
In cases where the rotor is integrated into a more complex system, ensure the correct operation and interaction of all related components.

This process allows for precise imbalance correction, reducing vibration and extending equipment life.

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