MANAV PARIKH
ROBOTICS ENGINEER
Robotics ยท Systems ยท Engineering

MANAV
PARIKH

Architecting autonomous systems, competition-grade hardware,
and custom path planning algorithms from the ground up.

Explore Systems About Me
2ร— National Podium
#1 Robocon 2024
4+ Systems Built
Hybrid A* planner
Nav2 Plugin
SLAM Toolbox
Holonomic Drive
EKF Fusion
BehaviorTree.CPP
costmap_2d
ros2 launch
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ROS2ยท Nav2ยท SLAM Toolboxยท AMCLยท Extended Kalman Filterยท C++ยท SolidWorksยท Hybrid A*ยท Holonomic Kinematicsยท Ubuntuยท BehaviorTree.CPPยท Costmap2Dยท Embedded Systemsยท STM32ยท
01 โ€” Autonomous Systems

ROS2 Navigation
Stack

Full autonomous navigation stack for competition robots. SLAM Toolbox for live cartography, AMCL for probabilistic Monte Carlo localisation, and an EKF fusing wheel odometry with IMU data into a robust pose estimate.

ROS2 SLAM Toolbox AMCL EKF Nav2
Deep Dive โ†’
Video Demo
assets/videos/ros_nav_demo.mp4
01
02 โ€” Algorithms

Custom Path
Planning

From-scratch trajectory generation as Nav2 plugins. Hybrid A* with Dubins primitives for differential drive; holonomic velocity decomposition for the 3-wheel swerve platform. Engineered for kinematic feasibility from the first line.

C++ Hybrid A* Spline Trajectories Nav2 Plugin
Explore Algorithm โ†’
Algorithm Visualisation
assets/videos/path_planning_demo.mp4
02
03 โ€” Kinematics

3-Wheel Swerve
Drive

Holonomic platform capable of simultaneous independent translation and rotation. Fully decoupled heading control โ€” translate in any direction while facing an arbitrary field-relative orientation. Critical for precision competition tasks.

Holonomic 3WD Geometry STM32 Heading Decoupling
View System โ†’
Swerve Demo
assets/videos/swerve_demo.mp4
03
04 โ€” Mechatronics

Competition
Hardware

End-to-end SolidWorks assemblies, structural stress testing, motor selection, and competition-grade aluminum chassis fabrication. Two-time national podium. These machines work under pressure.

SolidWorks Parametric CAD Drivetrain Design DD Robocon
View Hardware โ†’
Competition Robot CAD Render
CAD Render / Photo
assets/images/cad/chassis_render.jpg
04
05 โ€” Control Systems

Self-Balancing
Robot

Engineered for the Robofest 4.0 competition. Implemented a robust control system combining sensor fusion (IMU & encoders) to maintain continuous inverted pendulum balance. Successfully designed the architecture and passed both the design report and proof of concept stages with the team.

Control Theory Sensor Fusion Robofest 4.0 PID
View Project โ†’
Robofest Demo
assets/videos/robofest_demo.mp4
05
7.72 CGPA ยท Nirma University
2024 National Champions ยท DD Robocon
#2 1st Runners Up ยท Robocon 2025
4+ Systems Built & Deployed