Ved Prakash

Motivated and detail-oriented computer science student with hands-on experience in Python programming, machine learning, and software development. Strong foundation in algorithms, data structures, and object-oriented programming, complemented by practical experience through academic projects. Adept at problem-solving, developing innovative solutions, and collaborating in team environments. Eager to apply technical knowledge and analytical skills in internships or entry-level roles to contribute to impactful projects while continuing to grow as a software developer.

• Data Science Certificate
• Internet Of Things.
• DSA Python

Project Title: Face Detection using OpenCV
Tools & Technologies: Python, OpenCV, Haar Cascades, NumPy

Description:
Developed a face detection system using OpenCV and Python, utilizing Haar Cascade classifiers to detect human faces in real-time from images or video streams. The system was optimized for speed and accuracy, capable of detecting multiple faces simultaneously.

Key Responsibilities:

• Integrated OpenCV’s pre-trained Haar Cascade classifiers to identify and track faces.
• Applied image preprocessing techniques such as grayscale conversion and scaling for optimized detection.
• Implemented real-time face detection using a webcam feed.
• Conducted testing and tuning of the model to improve detection accuracy in various lighting and background conditions.
• Collaborated on improving performance and reducing false positives by adjusting model parameters.

Results:

• Achieved accurate face detection with minimal false positives in real-time environments.
• Enhanced the model’s detection speed to work efficiently on low-power devices.

Project Title: Scientific Calculator using Tkinter
Tools & Technologies: Python, Tkinter (GUI), Math Library

Description:
Designed and developed a fully functional scientific calculator with a graphical user interface (GUI) using Python’s Tkinter library. The calculator performs basic arithmetic operations as well as advanced mathematical functions like trigonometry, logarithms, and exponentiation.

Key Responsibilities:

• Built an interactive GUI using Tkinter with buttons for numerical input, operators, and scientific functions.
• Implemented backend logic for basic arithmetic (addition, subtraction, multiplication, division) and scientific calculations (trigonometric functions, logarithms, powers).
• Applied error handling techniques to ensure proper handling of invalid inputs and division by zero errors.
• Designed a responsive and user-friendly layout, making the interface intuitive for users.
• Enhanced functionality by adding support for memory operations, percentage calculations, and clearing functions.

Results:

• Delivered a feature-rich scientific calculator with an easy-to-use graphical interface.
• Optimized the application to handle complex calculations efficiently with accurate results.

When adding a "Tic-Tac-Toe Game using Tkinter" project to your resume, focus on your development skills, the functionality of the game, and the technologies you used. Here's how you can frame it:

Project Title: Tic-Tac-Toe Game using Tkinter
Tools & Technologies: Python, Tkinter (GUI), Object-Oriented Programming

Description:
Developed a Tic-Tac-Toe game with a graphical user interface (GUI) using Python’s Tkinter library. The game allows two players to compete in turn-based gameplay, with the system detecting win conditions and handling ties.

Key Responsibilities:

• Designed and implemented a user-friendly interface using Tkinter to manage player moves and display the game grid.
• Developed game logic to manage player turns, check for win conditions (row, column, diagonal), and detect draw scenarios.
• Used object-oriented programming (OOP) principles to modularize game logic and GUI components.
• Integrated features like score tracking, game reset, and error handling for invalid moves.
• Ensured responsiveness of the game interface, making it easy to use on different screen sizes.

Results:

• Delivered a fully functional and interactive Tic-Tac-Toe game with a visually appealing GUI.
• Optimized the game for smooth performance and user-friendly interaction.
• Enhanced player experience by implementing a reset function and dynamic win/draw detection.

Key Skills:

• GUI Development, Python, Tkinter, Game Development, Object-Oriented Programming, Algorithm Design

When adding an "Automatic Change Direction Car using Arduino" project to your resume, emphasize your knowledge of hardware, programming, and automation. Here's how you can frame it:

Project Title: Automatic Change Direction Car using Arduino
Tools & Technologies: Arduino, C (Arduino IDE), Ultrasonic Sensors, DC Motors, Motor Driver, Embedded Systems

Description:
Designed and developed an autonomous car system using Arduino that automatically changes direction when obstacles are detected. The car uses ultrasonic sensors to detect objects in its path and triggers motors to adjust the direction, enabling obstacle avoidance.

Key Responsibilities:

• Programmed the Arduino microcontroller to control the car’s movement and detect obstacles using ultrasonic sensors.
• Integrated motor drivers to manage the car's forward, backward, and turning motions based on sensor input.
• Developed the obstacle detection algorithm to measure distance and trigger direction changes.
• Assembled the hardware, including DC motors, sensors, and battery-powered circuitry, for the autonomous vehicle.
• Debugged and optimized the system to ensure smooth and responsive changes in direction.
• Conducted tests to improve reliability in various environments and ensured safe and accurate obstacle avoidance.

Results:

• Successfully built an autonomous car capable of changing direction in real-time upon detecting obstacles.
• Improved the vehicle’s response time and accuracy by fine-tuning sensor sensitivity and motor control logic.
• Demonstrated hands-on skills in embedded systems, sensors, and robotics.