5 Advanced Projects with Raspberry Pi 5 that Brazilians Are Creating

The Raspberry Pi 5 arrived like a hurricane in the Brazilian maker ecosystem, transforming crazy ideas into real solutions for everyday problems.

Raspberry Pi 5, Here is an ordered summary of the topics we will explore:

Why is the Raspberry Pi 5 revolutionizing project creation in Brazil?
What are 5 advanced Raspberry Pi 5 projects created by Brazilians?
How do these projects demonstrate the educational and economic potential of Pi 5?
Frequently Asked Questions About Advanced Projects with Raspberry Pi 5

Why is the Raspberry Pi 5 revolutionizing project creation in Brazil?

5 Projetos Avançados com Raspberry Pi 5 que Brasileiros Estão Criando

First, think of the Raspberry Pi 5 as a turbocharged Swiss Army knife for the Brazilian inventor: compact, versatile, and inexpensive, but now with the muscle to handle heavy-duty tasks.

Previously, projects using the Pi 4 were hampered by processing bottlenecks; today, with a quad-core ARM Cortex-A76 SoC at 2.4 GHz, it runs local AI without breaking a sweat.

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Therefore, communities like those in São Paulo and Recife are flourishing, with hackathons that transform leftover electronics into viable prototypes.

Furthermore, the timing is perfect for Brazil in 2025.

With the economy recovering and the focus on Industry 4.0, the Pi 5 emerges as a low-cost alternative to expensive imports.

For example, while an industrial mini-PC costs R$ 2,000, a Pi 5 kit costs less than R$ 500, democratizing access.

Thus, makers from urban peripheries, without access to high-tech labs, are creating solutions that impact real communities.

Finally, integration with local ecosystems accelerates everything.

Tools like expanded GPIO and support for high-resolution cameras enable hacks that engage with everyday life in Brazil – from monitoring floods in Rio to automating farms in Mato Grosso.

Therefore, it's no surprise that on forums like Reddit Brazil, threads about "advanced projects with Raspberry Pi 5" have exploded using the 50% in the last six months.

This revolution is not just technical; it's cultural, empowering a generation of creators who ask: what if innovation didn't need venture capital to take off?

What are 5 advanced Raspberry Pi 5 projects created by Brazilians?

Now, let's delve into the five projects that are attracting attention.

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Each one, developed by Brazilians in 2025, uses the Pi 5 creatively, going beyond the basics as a media center.

Let's break down what it is, how it works, and why it matters, showing how these creators are redefining "advanced."

Project 1: What is JAPAH's "Night City" Cyberdeck?

The Cyberdeck “Night City” is a cyberpunk-inspired handheld console set set up by Cyberpunk 2077, created by JAPAH, a maker from São Paulo who blends fiction and functionality.

Instead of a regular laptop, it's a modular device with a 7-inch OLED screen, a retractable mechanical keyboard, and a 3D-printed case.

Therefore, it runs indie games and ethical hacking tools, all powered by the Pi 5 for extreme portability.

How does it work?
The Pi 5 manages the core: it processes inputs via USB-C, renders graphics with the VideoCore VII GPU, and connects to peripherals via PCIe for fast storage.

Furthermore, Python scripts integrate thermal sensors for dynamic overclocking, preventing overheating during long sessions.

Thus, JAPAH plans expansions such as a gesture-controlled bionic arm, using libraries like OpenCV for motion recognition.

What are the advantages for Brazilian makers?

First, cost: less than R$ 800 to replicate, versus R$ 3,000 in an entry-level gaming laptop.

Next, customization: open-source on GitHub, allowing communities to adapt it for programming education.

Finally, cultural impact – it transforms the Pi 5 into interactive art, proving that technology can be storytelling.

Project 2: How Does RoboCore's Automated Tetris Work?

Developed by RoboCore, from Belo Horizonte, this Tetris is not just a game: it's an automation system that uses AI to "throw" real blocks onto an assembly table.

What makes it advanced? Integration with servos and cameras to simulate real-world physics, running in real time on the Pi 5.

Therefore, it serves as a demo for educational robotics in schools in Minas Gerais.

In practice, the Pi 5 captures frames via CSI-2, processes them with TensorFlow Lite to predict movements, and controls actuators via PWM.

Therefore, a feedback loop adjusts the difficulty by learning patterns from human "players".

Additionally, Wi-Fi connectivity enables remote multiplayer, with scores synchronized in the cloud.

Why does this empower local creators?

Accessibility: Open source code and tutorials on the RoboCore website make replicas easier to create at science fairs.

Efficiency: The Pi 5's 2x faster I/O reduces latency to <50ms, ideal for industrial prototypes.

Thus, he argues that games are not frivolous entertainment – they are gateways to accessible engineering.

Project 3: What are the advantages of the "Verde Pi" agricultural monitor in Recife?

Created by an engineer from Recife, "Verde Pi" is an IoT monitoring system for cashew plantations, using environmental sensors on the Pi 5.

What makes it stand out? Predictive pest analysis via edge computing, without relying on expensive cloud computing.

In 2025, with droughts in the Northeast, it optimizes irrigation in real time.

Step-by-step operation: DHT22 sensors and thermal cameras feed data to the Pi 5, which runs ML models in PyTorch to predict yields.

Then, via MQTT, it alerts farmers through the customized app.

Therefore, integration with solar panels ensures off-grid capability, which is crucial for remote areas.

Economic advantages?

Reduced losses: tests showed 25% less water wastage.

Scalability: Multiple Pis clustered via Ethernet, costing R$ 300/unit.

Furthermore, it fosters cooperatives, where farmers share data to secure better bargains in the market.

Project 4: Why is the “EcoSort” Recycling Separator an Urban Innovation?

This original project by a collective in São Paulo uses the Pi 5 to classify waste via computer vision, inspired by the chaos of Brazilian garbage dumps.

What is it? An automated conveyor belt that separates plastics, metals, and organic materials with 92% precision.

Thus, he tackles the problem of informal recycling in capital cities.

How does it work? The Raspberry v3 camera captures images, which are processed by the Pi 5 with YOLOv8 for instant detection.

Next, pneumatic arms, controlled by GPIO, divert items to bins.

Therefore, SQLite logs enable reporting for tax incentives in condominiums.

What are the benefits?

Sustainability: processes 50kg/hour, equivalent to 10 volunteers.

Education: web interface teaches users about screening, reducing contamination.

Finally, a fast ROI: payback in 6 months for urban NGOs.

Project 5: What Makes the “Nemo Pi” Underwater Drone Essential for the Brazilian Coast?

Developed by divers from Florianópolis, the “Nemo Pi” is an ROV (remotely operated vehicle) for coral inspection, equipped with Pi 5 for underwater processing.

Advanced why? Supports 4K streaming and integrated sonar, resistant to depths of 30m.

In 2025, with reef bleaching, he maps damage without human risk.

Mechanically, the Pi 5 manages thrusters via ESC and processes sonar data with SciPy for 3D modeling.

In addition, Ethernet tether transmits video with low latency.

Thus, C++ software optimizes battery life for 2 hours of operation.

Advantages for research?

Cost-effectiveness: R$ 1,200 vs. R$ 10,000 in commercial drones.

Precision: AI filters marine noise, generating actionable maps for IBAMA (Brazilian Institute of Environment and Renewable Natural Resources).

Therefore, he proves that Pi 5 is not just for land – it's oceanic.

Project	Approximate Cost (R$)	Main Application	Key Components in the Pi 5
Cyberdeck “Night City”	800	Entertainment/Hacking	GPU VideoCore, PCIe Storage
Automated Tetris	600	Robotics Education	PWM GPIO, TensorFlow Lite
“Green Pi” Agricultural Monitor	400	IoT Agriculture	DHT sensors, PyTorch ML
"EcoSort" separator	1.000	Urban Recycling	YOLOv8 View, SQLite DB
"Nemo Pi" Drone	1.200	Marine Exploration	Sonar Interface, 4K CSI

How do these projects demonstrate the educational and economic potential of Pi 5?

These projects are not isolated; they form an ecosystem that educates while generating income.

For example, "Verde Pi" already trains 200 farmers in free courses, using the Pi 5 as a hands-on tool.

Therefore, the argument is clear: accessibility leads to upskilling, reducing inequalities in tech.

Economically, the impact is measurable.

With the Pi 5's energy efficiency (consuming 7W idle), projects like "EcoSort" cut operational costs by 40% for cooperatives.

Furthermore, exporting know-how – open-source code – attracts international collaborations, such as partnerships with... Raspberry Pi Foundation.

Thus, Brazilian creators not only innovate locally, but also put the country on the global map of makers.

And what about education? Imagine schools in underprivileged areas assembling drones like "Nemo Pi" – this isn't fiction, it's 2025.

These hacks promote STEM, with RoboCore statistics showing 30% more engagement in classes with Pi 5.

Therefore, the Pi 5 doesn't build devices; it builds futures, questioning: why limit innovation to expensive classrooms when an R$ 300 SBC is enough?

Raspberry Pi 5: Frequently Asked Questions

Question	Response
What hardware is essential for advanced projects with Raspberry Pi 5?	A case with an active cooler, NVMe SSD via PCIe, and sensors like CSI cameras – avoid bottlenecks with overclocking up to 3GHz.
How can we start a similar project in Brazil in 2025?	Join communities like RoboCore or forums on Reddit; kits are available on FilipeFlop by R$ 400.
Does the Pi 5 support heavy AI without cloud storage?	Yes, with 8GB of RAM and TensorFlow Lite, it runs local models efficiently, ideal for edge computing on farms.
What are the risks in underwater projects like Nemo Pi?	Waterproofing with epoxy resin and pressure testing; use Ethernet tether for stability.
Is it feasible to monetize these projects?	Absolutely – EcoSort generates income through services to condominiums; look for Sebrae's calls for proposals for prototypes.
What is the difference between Pi 4 and Pi 5 for advanced users?	Pi 5 doubles CPU/GPU and adds PCIe, reducing latency by 50% for computer vision.
Where can I find tutorials in Portuguese?	Sites like Onboard They offer updated guides for 2025.

These advanced projects with Raspberry Pi 5 show that Brazil doesn't follow trends – it creates them.

From cyberdecks to drones, the Pi 5 is the catalyst for an era where creativity knows no boundaries.

Try one and see: the next revolution might just start in your garage.

For more inspiration:

Andre Neri December 8, 2025

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