Spis treści
Kompleksowe prototypowanie dla ery urządzeń połączonych
Prototypowanie.pl specjalizuje się w tworzeniu inteligentnych, połączonych urządzeń, które definiują przyszłość Internetu Rzeczy. Od sensorów przemysłowych po smart home – tworzymy prototypy, które komunikują się, uczą i adaptują.
Nasza ekspertyza w ekosystemie IoT
Hardware Development
- Custom PCB design – od schematu do produkcji
- Sensor integration – akcelerometry, GPS, environmental
- Power management – battery optimization, energy harvesting
- Wireless modules – WiFi, BLE, LoRa, NB-IoT, 5G
- Edge processors – ARM Cortex, ESP32, Nordic nRF
Embedded Software
- RTOS implementation – FreeRTOS, Zephyr
- Firmware development – C/C++, Rust, MicroPython
- OTA updates – secure remote upgrades
- Protocol stacks – MQTT, CoAP, HTTP/2
- Security layers – encryption, secure boot, TEE
Cloud & Analytics
- IoT platforms – AWS IoT, Azure IoT Hub, Google Cloud IoT
- Data pipelines – real-time streaming, batch processing
- ML at the edge – TensorFlow Lite, Edge Impulse
- Dashboard creation – Grafana, custom React apps
- API development – RESTful, GraphQL, WebSocket
Proces prototypowania urządzenia IoT
Sprint 1: Concept & Architecture (Dni 1-3)
- Analiza wymagań funkcjonalnych
- Wybór architektury (edge vs cloud)
- Selekcja komponentów
- Projekt komunikacji
- Szacowanie zużycia energii
Sprint 2: Hardware Prototype (Dni 4-10)
- Projekt PCB w KiCad/Altium
- Rapid PCB manufacturing (48h)
- Component sourcing & assembly
- 3D printed enclosure
- Initial testing
Sprint 3: Firmware Development (Dni 7-14)
- Bootloader implementation
- Driver development
- Communication stack
- Security implementation
- Power optimization
Sprint 4: Cloud Integration (Dni 10-17)
- Device provisioning
- Data ingestion setup
- Analytics pipeline
- Dashboard development
- API endpoints
Sprint 5: Testing & Validation (Dni 15-21)
- Functional testing
- Environmental testing
- Security audit
- Performance optimization
- Documentation
Technologie i platformy
Mikrokontrolery i SoC
ESP32 Series
- Dual-core 240MHz
- WiFi + Bluetooth
- Ultra-low power
- Cena: od $3
STM32 Family
- ARM Cortex-M
- Extensive peripherals
- Industrial grade
- Real-time performance
Nordic nRF Series
- BLE 5.3
- Thread, Zigbee
- Ultra-low power
- Mesh networking
Komunikacja bezprzewodowa
Short Range
- Bluetooth 5.3 / BLE
- WiFi 6 (802.11ax)
- Zigbee 3.0
- Thread / Matter
- NFC
Long Range
- LoRaWAN
- NB-IoT
- LTE-M
- 5G RedCap
- Satellite IoT
Sensoryka
Environmental
- Temperatura/wilgotność (±0.1°C)
- Ciśnienie atmosferyczne
- Jakość powietrza (PM2.5, CO2)
- Światło/UV
- Dźwięk/wibracje
Motion & Position
- 9-axis IMU
- GPS/GNSS (cm accuracy)
- Magnetometry
- Barometric altimeter
- mmWave radar
Specjalizacje branżowe
Smart Home & Building
Inteligentny termostat
- Uczenie się nawyków
- Geofencing
- Integracja z HVAC
- Oszczędność energii 30%
System bezpieczeństwa
- AI video analytics
- Facial recognition
- Motion patterns
- Cloud recording
Industrial IoT (IIoT)
Predictive Maintenance
- Vibration monitoring
- Temperature tracking
- Machine learning models
- Failure prediction
- Downtime reduction 40%
Asset Tracking
- GPS + cellular
- 5-year battery life
- Shock detection
- Temperature logging
- Chain of custody
Agriculture Tech
Soil Monitoring System
- Multi-depth sensors
- LoRaWAN connectivity
- Solar powered
- Weather resistant IP67
- Irrigation automation
Livestock Tracking
- GPS collars
- Health monitoring
- Behavior analysis
- Grazing optimization
- Alert system
Healthcare IoT
Remote Patient Monitoring
- Vital signs tracking
- Medicine adherence
- Fall detection
- Emergency alerts
- HIPAA compliant
Smart Medical Devices
- Connected inhalers
- Insulin pens
- Blood pressure monitors
- ECG patches
- Continuous glucose monitors
Edge Computing w prototypach
Lokalne przetwarzanie danych:
# Edge ML inference example
import tflite_runtime.interpreter as tflite
class EdgeProcessor:
def __init__(self):
self.interpreter = tflite.Interpreter(
model_path='model.tflite'
)
self.interpreter.allocate_tensors()
def process_sensor_data(self, data):
# Preprocessing
processed = self.preprocess(data)
# ML inference
prediction = self.run_inference(processed)
# Decision making
if prediction > THRESHOLD:
self.trigger_action()
# Send only relevant data to cloud
self.send_to_cloud(prediction)
Zalety Edge Computing:
- Latencja <10ms
- Prywatność danych
- Offline operation
- Bandwidth reduction 90%
- Lower cloud costs
Bezpieczeństwo IoT
Hardware Security
- Secure Element – crypto chip
- Trusted Platform Module – TPM 2.0
- Physical tamper detection
- Secure boot chain
- Hardware encryption – AES-256
Software Security
- Firmware signing – RSA 4096
- Encrypted communication – TLS 1.3
- Certificate management – X.509
- Secure OTA updates
- Vulnerability scanning
Network Security
- Device authentication – mutual TLS
- Zero-trust architecture
- Network segmentation
- DDoS protection
- Anomaly detection
Case Studies
Smart Factory – Kompletny system IoT
Klient: Fabryka automotive
Wyzwanie:
- 500+ maszyn do monitorowania
- Real-time production metrics
- Predictive maintenance
- Energy optimization
Rozwiązanie Prototypowanie.pl:
Hardware:
- 500x sensor nodes (vibration, temp, current)
- 50x gateway devices
- Edge servers for local processing
Software:
- Custom firmware (FreeRTOS)
- Edge ML for anomaly detection
- Cloud platform (AWS IoT)
- React dashboard
Results:
- 35% reduction in downtime
- 20% energy savings
- ROI in 8 months
Smart City Parking
Deployed: 1000 parking spots
Technology Stack:
- Magnetic sensors
- LoRaWAN network
- Cloud analytics
- Mobile app
Metrics:
- 99.5% uptime
- 5-year battery life
- 30% reduction in traffic
- 2x revenue increase
Rapid Prototyping Tools
Hardware Platforms
- Arduino MKR series – quick proof of concept
- Raspberry Pi Compute – powerful edge computing
- Particle devices – integrated cellular
- Blues Wireless – simplified connectivity
Software Frameworks
- Node-RED – visual flow programming
- PlatformIO – unified embedded development
- Mongoose OS – commercial IoT platform
- AWS Greengrass – edge runtime
Skalowanie od prototypu do produkcji
Prototyp (1-10 units)
- Breadboard/perfboard
- 3D printed cases
- Manual assembly
- Lab testing
Pilot (10-100 units)
- Custom PCB
- Injection molded parts
- SMT assembly
- Field testing
Production (100+ units)
- DFM optimization
- Automated testing
- Certification (CE, FCC)
- Mass production
Wsparcie kompleksowe
Prototypowanie.pl oferuje:
Consulting & Design
- Architecture planning
- Technology selection
- Security assessment
- Scalability analysis
- Cost optimization
Development & Testing
- Hardware design
- Firmware development
- Cloud integration
- Testing & validation
- Certification support
Production & Support
- Manufacturing setup
- Quality control
- OTA infrastructure
- Monitoring & maintenance
- Technical support
Finansowanie projektów IoT
Dostępne opcje:
- Granty NCBiR (do 85%)
- Smart City funding
- EU Digital Europe
- Venture capital
- Revenue sharing
Rozpocznij projekt IoT już dziś
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