ABOUT ME
Professional Bio
I am a Mechanical Engineering student from IET-DAVV, Indore, MP. I like to code and explore tech to enhance my experience & skillset, and make new things from my learning to expand my horizons.
My Key Projects & Experience:
- Final Year Project: Worked with my team on the Improvement of Assembly Line Efficiency & Material Handling under the guidance of Dr. Devendra Singh Verma at IET-DAVV.
- AI Workshop: Attended a specialized Artificial Intelligence workshop organized by Fluxus, IIT Indore, to bridge the gap between core engineering and smart software.
- Hackathon: Participated in a safety-focused helmet design hackathon under the BIS (Bureau of Indian Standards) Club of IET-DAVV.
I appreciate you following along on my journey. If you are looking for a team member or have a role to recommend, I am ready to participate. Feel free to reach me!
— Anurag Dashore
Python
AI | ML
MYSQL | SQL
C | C++
Pandas
Matplotlib
Information Practices | IP
Object Oriented Programming | OOPs
Project Management
GitHub
Academic Degree
- Bachelor of Engineering (B.E.) in Mechanical Engineering
Institute of Engineering and Technology
, Devi Ahilya Vishwavidyalaya Indore, MP (IET DAVV)
Session : 2022-26 [ 4th Year Student ( Current ) ]
EDUCATION
2022 — PRESENT
B.E in Mechanical Engineering
IET DAVV, Indore, MP - Institute of Engineering and Technology
Aug 2023
Safety Helmet Design Hackathon
BIS Club, IET-DAVV - Product Innovation
Nov 2022
AI | ML Workshop
Fluxus, IIT Indore - Advanced AI Applications
2021
Higher Secondary School (Class XII)
Score: 83% - PCM-IP [Science-Maths, Information Practices] Stream -(CBSE BOARD)
2019
High School (Class X)
Score: 73% -(CBSE BOARD)
FEATURED PROJECTS
FINAL YEAR PROJECT AND HACKATHONS
FINAL YEAR PROJECT
Improvement of Assembly line Efficiency and Material Handling
Description
Under guidance of my project mentor Dr. Devendra Singh Verma [Head of Department, DAVID - DAVV]. Conducted study for topic Improvement of Assembly Line Efficiency & Material Handling and created my final year project
Objective: To analyze and optimize the assembly line operations of an industrial air cooler manufacturing unit by identifying bottlenecks, reducing non-value-added activities, and streamlining the plant layout.
Key Technical Contributions:
Objective: To analyze and optimize the assembly line operations of an industrial air cooler manufacturing unit by identifying bottlenecks, reducing non-value-added activities, and streamlining the plant layout.
Key Technical Contributions:
- Method Study & Work Measurement: Conducted a comprehensive AS-IS analysis using time-study techniques to establish a Standard Time of 33.26 minutes for the assembly process.
- Bottleneck Identification: Utilized Process Flow Diagrams (PFD) to visualize the workflow, revealing that 24% of the total cycle time was consumed by material transport and handling.
- Plant Layout Redesign: Developed and proposed a transition from a traditional cluttered layout to a U-shaped/Continuous Flow layout. This redesign eliminated material backtracking and significantly reduced the distance traveled by workers and components.
- Lean System Implementation: Designed and introduced a Kanban System to regulate material flow and prevent overproduction. Implemented Daily Production Reports (DPR) and standardized Production Schedules to improve inter-departmental communication and accountability.
- Process Engineering: Analyzed the assembly sequence of critical components (Motor, Fan, Cooling Pads, and Pump) to ensure a balanced workload across the assembly line.
- Tools & Frameworks Applied: Lean Manufacturing (Kanban card), Just-in-Time (JIT), and Waste (Muda) Reduction.
- Industrial Engineering: Time & Motion Study, Process Mapping, and Plant Layout & Material Handling (PLMH).
- Documentation: Process Flow Diagrams, Standard Operating Procedures (SOPs).
Production Planning & Control (PPC)
Plant Layout & Material Handling (PLMH)
Lean Manufacturing
Inventory Management (Kanban Systems)
Work Study & Measurement
whimsical
HACKATHON
BIS Club Hackathon: Optimized Safety Helmet Design
Description
Designed a conceptual model to improve the structural integrity and safety standards of two-wheeler helmets based on IS 4151 (Indian Standard for helmets). Focuses on increasing rider's safety while driving two wheelers and reduce stop time on traffic signals with the help of IOT (internet of things). Collaborated with a team to analyze material durability and user ergonomics for better compliance with safety regulations.
Note:Team participation (2-members).View Projects section on LinkedIn (By clicking on Source or in Links tab)
Note:Team participation (2-members).View Projects section on LinkedIn (By clicking on Source or in Links tab)
Mechanical Product Design
Product Development
Safety Standards (BIS)
Python & Software Development
CODING | Python
IMAGE EDITOR PRO (OpenCV Image Processing Basics)
Description
Script performs basic image processing operations using OpenCV in Python. It loads an image and simultaneously displays the original version alongside grayscale, blurred, and edge-detected outputs.
Python
OpenCV
Image-edit
CODING | Python
GEMINI_CLI_CHAT_BOT
Description
This is a terminal-based chatbot created with the help of a Gemini API key. It allows you to have real-time conversations with the AI directly from your python IDE Terminal, command prompt or powershell with the help of gemini api-key.
Python
API-KEY
TERMINAL
GALLERY
Assembly Line Study Setup
IIT-Indore Artificial Intelligence Workshop Certificate
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