3-Axis Raspberry Pi Camera Gimbal

@amelectronics

I am a skilled and reliable Embedded Systems Engineer with over 6 years of hands-on experience in Arduino, ESP32/ESP8266, and microcontroller-based development. I specialize in designing efficient, stable, and scalable embedded solutions, turning ideas into fully functional hardware-software systems. I have a strong background in electronics, sensors, communication protocols (UART, I2C, SPI, MQTT, WiFi, BLE), and real-time embedded systems. My development approach focuses on clean, well-structured, and well-documented firmware, ensuring long-term reliability and easy maintenance. I also provide thorough testing, debugging, and performance optimization, including power efficiency improvements where required. I am a detail-oriented engineer with strong problem-solving skills and extensive experience in hardware debugging and firmware optimization. Beyond technical expertise, I value clear communication, meeting deadlines, and maintaining high client satisfaction. I work closely with clients to fully understand project requirements and deliver high-quality results. Pricing is flexible and can be discussed based on project scope and complexity. I am open to both short-term and long-term projects. Let’s work together to build a professional, reliable, and efficient embedded system for your needs.

@ENG1mga

Welcome I MADE MANY SMART DEVICES THAT MANUFACTURED AND USED IN REAL YOU WILL GET IT DONE PERFECTLY IN LESS TIME CHECK MY LATEST REVIEWS > (http://www.freelancer.com/u/ENG1mga) I have previously worked on, Lifting Set of Drones Mechanism, Robotic Arm, Delivery Robot, Automatic Wiring Machine, Solenoid Engines, Car Rooftent, Boat Lift Mechanism, Shoe Treadmill Mechanism Mechanical Ventilator and many other projects. I use Solidworks, Fusion 360, and ANSYS, COMSOL I have a workshop specializing in all 3D printing and CNC machining work, so I strive to provide the highest quality and precision. What you will receive with me: - 2D drawings - 3D files - Complete Tech. Formats - Finite Element Analysis (FEA) (if needed).

@markoa7

As an electronic engineer with a passion for innovation and a proven track record in designing hardware and firmware, I am confident that I can deliver the compact, three-axis Raspberry Pi camera gimbal you need – one that will consistently keep your footage steady, even under manual command. My deep understanding of PCB design and development combined with my proficiency in programming microcontrollers such as the Raspberry Pi means I can provide you with precisely what you're looking for. Utilizing my skills in 3D Design and using materials like plastic to make 3D-printing possible in-house, I can equip your gimbal with small hobby-grade brushless or servo motors that move smoothly while maintaining strength and lightness. To ensure ease of use, I will not only provide design files but also suggest readily available part numbers for motors, drivers, bearings, and fasteners through thorough motor sizing calculations. Finally, my extensive experience with Python programming and Raspberry Pi will guarantee a stable implementation of your desired manual control system and a comprehensive control script ready to run on your device. With me on board, the project is not only complete when you can print the parts and find detailed instructions on replication, but when you find yourself confidently capturing smooth video footage. Let's work together to transform your ideas into a reality!

@sahildogra222

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@hayat38402

Hi, how are you doing? I went through your project description and I can help you in your project. your project requirements perfectly match my expertise. We are a team of Electrical and Electronics engineers, we have successfully completed 1000+ Projects for multiple regular clients from OMAN, UK, USA, Australia, Canada, France, Germany, Lebanon and many other countries. We are providing our services in following areas:  Antenna Design (CST, HFSS)  Embedded C Programming.  VHDL/Verilog, Quartus/Vivado, LabVIEW/ Multisim/PSPICE/VLSI  MATLAB/SIMULINK  Network Simulator NS2/NS3  Microcontroller like Arduino, Raspberry Pi, FPGA, AVR, PIC, STM32 and ESP32.  IDEs like Keil MDK V5, ATmel studio and MPLab XC8.  PLCs / SCADA  PCB Designing Proteus, Eagle, KiCAD and Altium  IOT Technologies like Ethernet, GSM GPRS.  HTTP Restful APIs connection for IOT Communications. Also, we have good command over report writing, I can show you many samples of our previous reports. Kindly consider us for your project and text me so that we can further discuss specifically about your project's main goals and requirements.

@DesmondTwoTwo

A gimbal’s responsiveness hinges on both the frame’s precision and how smoothly the motors compensate for motion. Fine-tuning that interaction is where the challenge lies. Choosing the interface method affects signal latency. I2C is reliable but watch clock speed settings to avoid jitter, as that can undercut stabilization quality. A common oversight is neglecting motor torque curves against the printed frame’s weight, leading to sluggish correction or motor stall. Bearings also subtly impact repeatability. There’s an approach to boost PID tuning efficiency by layering simple adaptive algorithms, which could simplify your calibration without extra hardware. Reach out if you want a clear, simple way to approach this.

@Webslinger01

I have strong experience working with Raspberry Pi camera-based projects and have built multiple systems involving video capture, control, and motion handling. My Approach: I will design a lightweight 3-axis gimbal structure optimized for 3D printing, keeping balance and motor load in mind. I will select suitable motors (servo/brushless based on requirement) and calculate torque properly so movement stays smooth. For control, I will connect a joystick (USB or GPIO-based) to the Raspberry Pi and map it to all three axes. Then I will write a simple, well-commented Python script with PID tuning support so you can easily adjust stability later. I will test the full setup in my lab to ensure stable video output. Deliverables: • 3D design files (STL + editable source) • Motor selection + calculations + full BOM • Complete wiring diagram • Ready-to-run control script + README • Test proof (video/screenshots) I already have Raspberry Pi, servo motor, a 3D printer, and a full electronics lab for proper testing. I will deliver this project within a few days.

@soniaer987

I have hands-on experience with Raspberry Pi, motor control, and Python — I have built and deployed a Raspberry Pi-based line-following robot with real-time motor control and sensor integration. Raspberry Pi GPIO, motor drivers, and Python control scripts are part of my regular workflow. What sets me apart here: I have a Raspberry Pi, servo/brushless motors, and a 3D printer in my lab. I will physically print the parts, assemble the gimbal, test all three axes under manual joystick control, and verify the stabilisation works before delivery — not just hand over files. I will deliver in 2 days: • 3D-printable STL files + editable source (Fusion 360) — lightweight frame balanced for hobby-grade motors • Motor sizing calculations with specific part numbers for motors, drivers, and bearings • Wiring diagram: Pi, motor drivers, power rail, joystick interface (I2C recommended for clean GPIO usage) • Commented Python control script with PID structure ready to tune per axis • README covering setup, calibration, and wiring steps • Test video/screenshots of all 3 axes responding to manual input Ready to start immediately.

@alluankit01

Hi, I can help with this. The important part here is not just making a 3-axis mount, but designing a lightweight printable gimbal that is actually stable with a Raspberry Pi camera, correctly sized motors, and a control loop you can tune later without pain. I can help with the full package: 3D-printable mechanical design, motor and driver selection, wiring diagram, joystick/manual control approach for the Pi, commented Python control script, calibration notes, and the STL/source files so you can reproduce it in-house. Best regards. Ankit.

@mohamedj97

I’ve already designed and 3D printed a balanced camera holder (gimbal) before, with stable performance. not starting from scratch. Let’s talk so I can speed things up for you. I’ll handle the 3-axis design, motor selection, and smooth manual control via Raspberry Pi. You’ll get: STL + SolidWorks files Motor sizing + BOM Wiring diagram Ready control script (easy PID tuning) Ready when you are

@jowayne77

Hello, Having worked in the construction industry for over 7 years, with a focus on structural design using AutoCAD, Revit and other software, I believe I am the perfect fit for your Raspberry Pi Camera Gimbal project. My ability to balance strength and weight in my designs aligns with your requirement for a compact yet sturdy gimbal that can be 3D printed. Not only can I design the mechanical aspects of the project including providing you with all necessary STL and editable source files using software such as Fusion 360 or SolidWorks, but I also have extensive experience in motor sizing calculations. This means I can not only identify the most appropriate motors, drivers, bearings and fasteners for your gimbal but can also suggest readily available part numbers. Furthermore, my proficiency in python and understanding of libraries would be instrumental in creating a control script that not only stabilizes all three axes correctly under manual command but also comes with a comprehensive README for easy setup and calibration. Let me leverage my skills alongside your clear vision to deliver a product that meets your needs. Together, we can create a camera gimbal that elevates your videography experience. Thanks!

@drilonh

Drawing on my extensive experience as a Python developer with a strong background in APIs and automation, I understand the importance of clean and maintainable code, especially when it comes to specific project objectives like yours. My previous work with Flask and Raspberry Pi positions me perfectly to handle this task. I am confident I can meet all your requirements. From designing the gimbal using 3D-printed parts and calculating motor sizes to creating the control script in Python, every aspect of this project is within my wheelhouse. Importantly, I'll provide full instructions and a README file to make it convenient for you to tweak PID values later. Additionally, I believe my eye for structural design will help make sure that the frame is balanced in terms of strength and weight. Ultimately, it's my passion for coding combined with a meticulous attention to detail that sets me apart. Upon project completion, I will have equipped you with mechanical design files, calculated motor sizing with part numbers, precise wiring instructions, a functioning control script, as well as a test video attesting to accurate stabilization on all three axes; all software ready and easy to use. I'm excited about the prospect of realizing your vision - let's make clean video stabilization on your Raspberry Pi is possible!

@shuvadeep003

Hi there, This is a great project, and I’d love to design a compact 3-axis gimbal tailored for your Raspberry Pi camera with a strong focus on smooth, stable footage. I have experience with embedded control systems, motor tuning, and lightweight mechanical design for 3D printing. My approach: Design a lightweight, balanced 3-axis frame optimized for PLA/PETG printing, with bearings where needed for smooth motion Select suitable brushless gimbal motors or high-precision servos with proper torque calculations Use Raspberry Pi with a reliable control method (likely USB joystick or ADC via I²C for stable input) Implement PID-based stabilization control (Python) with clean, well-commented code for easy tuning Deliverables will include: STL + editable CAD files (Fusion 360) Complete BOM with motor specs, drivers, bearings, and power requirements Clear wiring diagram (Pi + drivers + input interface) Ready-to-run control script with calibration guide Demo proof of 3-axis stabilization under manual input I’ll ensure the system is practical, reproducible, and efficient for your hardware setup. Happy to refine based on your exact Pi model and camera module. Best regards, Shuvadeep