# Robust Bi-Directional Pressure Probe with Arduino-based Measuring Unit

> This project describes manufacturing of robust bi-directional pressure probes and building measuring unit for fire engineering application.

**Wikidata**: [Q136089028](https://www.wikidata.org/wiki/Q136089028)  
**Source**: https://4ort.xyz/entity/robust-bi-directional-pressure-probe-with-arduino-based-measuring-unit

## Summary
The Robust Bi-Directional Pressure Probe with Arduino-based Measuring Unit is an open hardware project focused on manufacturing robust pressure probes and building measuring units for fire engineering applications. It is classified as open hardware, meaning its design documents are openly accessible and modifiable.

## Key Facts
- **Instance of**: Open hardware (design documents are openly accessible and modifiable)
- **OSHWA UID**: CZ000007 (Open Source Hardware Association unique identifier)
- **Application**: Fire engineering (used for measuring pressure in fire-related scenarios)
- **Technology**: Arduino-based measuring unit (utilizes Arduino for data acquisition and processing)
- **Described by source**: *The Effect of Flow Approaching Angle on the Velocity Measurement Using Bi-directional Velocity Probe* (research paper related to the probe's design and functionality)

## FAQs
### Q: What is the primary use of the Robust Bi-Directional Pressure Probe?
A: The probe is designed for fire engineering applications, specifically for measuring pressure in fire-related scenarios.

### Q: Is the design of the probe openly accessible?
A: Yes, the project is classified as open hardware, meaning its design documents are openly accessible and modifiable.

### Q: What technology is used for the measuring unit?
A: The measuring unit is based on Arduino, which is used for data acquisition and processing.

### Q: What is the significance of the OSHWA UID CZ000007?
A: The OSHWA UID (Open Source Hardware Association unique identifier) CZ000007 is assigned to this project, indicating its recognition within the open hardware community.

### Q: What research paper is related to the probe's design?
A: The probe's design and functionality are described in the research paper *The Effect of Flow Approaching Angle on the Velocity Measurement Using Bi-directional Velocity Probe*.

## Why It Matters
The Robust Bi-Directional Pressure Probe with Arduino-based Measuring Unit is significant in the field of fire engineering due to its ability to measure pressure in fire-related scenarios. As an open hardware project, it promotes collaboration and innovation by making its design documents accessible to others. The Arduino-based measuring unit allows for flexible and customizable data acquisition and processing, making it a valuable tool for researchers and practitioners in fire safety. By providing a robust and bidirectional pressure probe, the project addresses the need for accurate and reliable measurement in fire engineering applications, ultimately contributing to improved fire safety and prevention strategies.

## Notable For
- **Open Hardware Classification**: The project is recognized as open hardware, allowing for widespread accessibility and modification of its design.
- **Fire Engineering Application**: The probe is specifically designed for use in fire engineering, addressing the need for accurate pressure measurement in fire-related scenarios.
- **Arduino-Based Measuring Unit**: The use of Arduino technology enables flexible and customizable data acquisition and processing, enhancing the probe's functionality.
- **OSHWA Recognition**: The assignment of the OSHWA UID CZ000007 indicates the project's recognition within the open hardware community.
- **Research Collaboration**: The probe's design is supported by related research, such as the paper *The Effect of Flow Approaching Angle on the Velocity Measurement Using Bi-directional Velocity Probe*, fostering collaboration and innovation in the field.

## Body
### Design and Manufacturing
The Robust Bi-Directional Pressure Probe is designed to be robust and suitable for fire engineering applications. The manufacturing process ensures the probe's durability and reliability in harsh environments.

### Measuring Unit
The measuring unit is based on Arduino, which is used for data acquisition and processing. This technology allows for flexible and customizable measurements, making the probe adaptable to various fire engineering scenarios.

### Open Hardware
The project is classified as open hardware, meaning its design documents are openly accessible and modifiable. This classification promotes collaboration and innovation within the open hardware community.

### OSHWA Recognition
The project has been assigned the OSHWA UID CZ000007, indicating its recognition within the Open Source Hardware Association. This recognition highlights the project's contribution to the open hardware movement.

### Related Research
The probe's design and functionality are described in the research paper *The Effect of Flow Approaching Angle on the Velocity Measurement Using Bi-directional Velocity Probe*. This paper provides insights into the probe's performance and potential applications in fire engineering.