Metal Detector Project
with Deep Learning technology
URD-1 UXO&RELIC
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Technology that protects.
Safe paths for people and communities.
About the project
The startup develops a prototype of a metal detector for detecting unexploded ordnance (UXO), utilizing advanced technologies such as digital signal processing (DSP) and artificial intelligence (DNN). The device is modular, weather-resistant, and provides high precision in challenging terrains.
Why is this project important?
The project aims to enhance safety in conflict-affected regions, such as Ukraine, by developing a reliable tool for detecting unexploded ordnance (UXO). By utilizing modern technologies, the detector will aid in faster and more accurate land clearing, minimizing risks to civilians and supporting the rebuilding process of devastated communities.
How does the detector work?
The detector utilizes digital signal processing (DSP) and artificial intelligence (DNN) to precisely analyze and recognize metallic objects in the field. Through an advanced machine learning algorithm, the device learns to differentiate dangerous items, such as unexploded ordnance, from other metal objects.
Project Stages - Roadmap
The project consists of several key stages: from prototype development, through testing and optimization, to certification and production. Currently, I am finishing work on the prototype and preparing for field tests, after which I will conduct optimization and certification. I plan to complete the project in 6 months, provided the necessary funds for continued work are secured.
Collaboration and Support
for a better future.
Financial Support
The project requires funding to complete the development of the UXO metal detector and to conduct necessary research and certification. Every donation contributes to enhancing safety in conflict-affected regions, helping to carry out the mission. Your support is crucial for the success of this project.
About Me
I have experience in designing metal detectors and utilizing modern technologies such as DSP and artificial intelligence. I aim to create an innovative solution that will help rebuild safe areas.
Collaboration and Partners
I collaborate with research institutions to provide optimal support in the development of the detector. These partnerships enable the exchange of knowledge and resources, accelerating project implementation and increasing its effectiveness. I am also open to cooperation with investors.
Thanks to Donors
Thank you to all donors for your support and trust! Your assistance is invaluable and allows me to continue my mission. Together we can contribute to increasing safety and supporting those affected by the consequences of conflicts. Every donation matters!
Project Description
Digital Signal Processing - DSP
The metal detector is equipped with advanced digital signal processing (DSP) technologies that transform and deliver signals to the dynamic neural networks (DNN) system for advanced analysis. DSP ensures efficient real-time data processing, enabling precise differentiation of signals from various objects and effective noise elimination. Thanks to the cooperation of DSP and DNN, the detector guarantees fast and accurate performance even in demanding field conditions, increasing detection effectiveness.
Artificial Intelligence - Deep Neural Network DNN
The detector uses artificial intelligence based on deep neural networks (DNN). This advanced technology allows the device to learn and improve in recognizing metal objects, significantly increasing effectiveness and reducing false alarms. DNN also enables the detector to adapt to specific working conditions, providing exceptional performance even in difficult environments.
High-Quality Materials
The device is designed using high-quality materials, making it fully resistant to various weather conditions – rain, snow, heat, or frost do not affect its performance. Additionally, the IP67 protection class provides full protection against dust and immersion in water, making the detector reliable in all field conditions.
Modular Construction
The detector features a modular construction that allows flexible adaptation to the user's needs. The device can work with standard probes, providing high sensitivity when searching for smaller objects, such as APM mines, as well as in a two-box configuration, allowing effective searching for larger targets while bypassing small debris. This versatility enables precise adjustment of the detector to various field conditions and targets, ensuring optimal performance for both precise and deep searches.
