Atul Kumar Joshi

With over 10 years of expertise in Research and Development, particularly in the domains of Numerical Analysis, Mathematical and Numerical Model Development, and Statistics, I have authored 7 publications. Proficient in Agile methodology, JIRA, Confluence, SharePoint, and Root Cause analysis.
I hold extensive experience in Scientific Computation, including Numerical Simulation, Critical Thinking, Programming, and Debugging over a decade. Notably, I am currently serving as a Senior Developer and Engineer at Honeywell Technology Solution Lab (HTS), specializing in UniSim and Process simulation for more than 10 years. My technical skills encompass Numerical Simulation, AutoSAR, Safety Systems, Mathematical and Numerical Modelling, Steady and Dynamic simulations. Further, my programming proficiencies include C, C++, Python, and AUTOSAR, while I am well-versed in utilizing tools and platforms such as OpenFOAM, Ansys, TechPlot, Star-CCM, Centos Linux, UniSim, and Process Simulation.

10 Years 0 Month

• Programming C And C++
• Advanced Computational Fluid Dynamics
• Red Certified Engineer
• ARM Processor And RTOS
• Computational Fluid Dynamics
• Udemy Python Course

• Gender: Male
• Marital Status: Other
• Date of Birth: 05/01/85

English Hindi Marathi

COURSES & CERTIFICATIONS

Programming C And C++
Advanced Computational FluidDynamics
Red Certified Engineer
ARM Processor And RTOS
Computational Fluid Dynamics
Udemy Python Course

1. Flame spread over non charring and charring material (2010 Days)

We conducted a comprehensive analysis of flame spread behaviour over both charring and noncharring materials, considering various orientations. The project primarily leveraged C++ and the Linux operating system, with a specific focus on utilizing OpenFOAM.

Objectives:

a. Charring vs. Non-Charring Materials comparison:

b. Solid Fuel Orientation Impact on fire propagation and flame speed:

c. Key Project Components: OpenFOAM: Utilizing OpenFOAM, a powerful open-source computational fluid dynamics (CFD) platform. FireFOAM Solver: Employing the FireFOAM solver within OpenFOAM, tailored for fire and combustion simulations, to model flame propagation.

Project Execution:

a. Model Development

b. Simulation and Analysis

Results Outcome:

This project contributes to our understanding of fire safety and material behaviour in the presence of flames. The results have practical applications in fire safety engineering, materials science, and building design, ultimately enhancing our ability to mitigate fire hazards.

2. Prototype: Time critical and synchronous application development for AutoSAR adaptive platform, 5 Months: Project Description: Prototype - Time-Critical and Synchronous App Development for AutoSAR Adaptive Platform. As a Senior Developer, I led a project focused on developing a time-critical and synchronous application prototype tailored for the AutoSAR Adaptive Platform. We harnessed C++11 in a Linux environment to meet strict real-time requirements. Requirements Analysis: Our project began with an in-depth requirements analysis, emphasizing these key aspects:

a. Real-time Compliance:

b. AutoSAR Adaptation:

c. C++11 Implementation:

d. Linux Environment

Design Analysis: During the design phase, we considered key elements: Component-Based Architecture: Real-time Scheduling: Synchronization Tools: IEEE LAN and Open-PTP Message Passing: The project also involved integrating IEEE LAN and Open PTP based message passing, enhancing LAN communication efficiency, and reinforcing real-time capabilities. This boosted overall performance and reliability.

3. UniSim Design Suite version 490 (12 Months) Project Title: UniSim Design Suite Integration for Automation Project Duration: 12 months Role: Senior Developer (C++, Fortran and Python)

Description:Led a 12-month project to integrate UniSim Design Suite (UniSim 490, UniSim Flare, UniSim PRS) with Cleopatra Cost Estimation software for automation. The goal was to streamline engineering processes and enhance cost estimation accuracy.

Responsibilities:Developed UniSim Design Suite modules, Unit Operations with Cleopatra Cost Estimation. - Rigorously tested and validated the integrated system for precision. - Collaborated with cross-functional teams to tailor automation solutions to their needs. - Implemented data synchronization mechanisms to automate process simulation data exchange. Impact: - Streamlined cost estimation, improving cost control and project timelines. - Increased project profitability through reduced manual work and improved accuracy. UniSim Design Suit 500, 12 Months Project Title: UniSim Design Suite 500 -Old Case Migration and New Feature Development Project Duration: 12 months Role: Senior Developer(C++,Python) Description: In my role as a Senior Developer, I led a project centred on UniSim Design Suite 500. The project encompassed the migration of legacy cases and the development of new features to enhance its capabilities. Responsibilities: - Managed the migration of legacy simulation cases from older versions to UniSim Design Suite 500. - Collaborated with engineers to identify and address compatibility issues during migration. - Developed custom features and enhancements to extend the functionality of UniSim Design Suite 500. - Conducted rigorous testing and validation to ensure the reliability of both migration and new features.

Achievements:-Successfully migrated numerous legacy simulation cases, preserving valuable historical data. Developed and integrated new features, significantly enhancing UniSim Design Suite 500's capabilities.

4. UniSim Flare, 12 Months Addressing convergence issues of UniSim Flare network of Pipes and implementation of Beggs and Brill co-relation for multiphase flow in pipes.