ADG has developed the Hymi-X intelligent prospecting technology with autonomous intellectual property 


Technology Principles

• Different elements exhibit specific absorption bands due to their unique electronic transitions, molecular vibration modes, and chemical environments.

• Each mineral displays distinct spectral characteristics resulting from its unique crystal structure and chemical composition.

• Various geological bodies show different spectral features due to differences in their mineral composition and structural configuration.
  

Spectral characteristics of different elements, minerals, and geological bodies

Technology Introduction

• Hymi-X utilizes intelligent spectral unmixing technology to extract feature information from complex spectral images. By constructing a vectorized model of the spectral data, it performs feature training to generate a high-precision classification dataset.

• By leveraging the characteristic spectra of elements, minerals, and rocks for precise matching, this approach enables accurate identification and extraction of hidden information from complex near-surface hyperspectral data. Utilizing China's hyperspectral satellite data, it effectively overcomes the limitations of traditional remote sensing methods and precisely pinpoints mineral exploration targets.

Hymi-X: By intelligent unmixing technology, train  vector spectral feature and forming set class database	Training set class database and identifying different elements
Training set class database and identifying different rocks and minerals	Projecting onto geological map to form rock or mineral anomaly (rock or mineral mapping)

Technology Advantages

• Defining mineralization information remotely：Leveraging the global coverage of satellite remote sensing data, Hymi-X technology enables remote extraction of mineralization information across worldwide regions.

• Unique data sources, autonomous intellectual property：China's hyperspectral satellite data provides a reliable data source, while core technologies such as algorithms, models, and software are independently developed with proprietary intellectual property rights.

• Analysis results directly indicate mineral elements：Results are equivalent to the single element geochemical anomaly by traditional large-scale geochemical surveys.

• Short exploration cycle, high exploration efficiency： Conventional resource exploration requires extensive field surveys and geophysical-chemical investigations, typically spanning 3–4 years with high investment risks. In contrast, Hymi-X technology significantly reduces this timeline: satellite data acquisition takes approximately 10–30 days, and data processing requires around 10 days, resulting in a total duration of 10–60 days, substantially lowering costs and risks.

• Widely application of mineral species：Including gold, copper, lead zinc, iron, bauxite, lithium, tungsten, tin, coastal placer, fluorite, and so on. Its capability to extract mineralization anomalies has been validated in mineral exploration projects in West Africa and domestically.
  

  
  

Identifying Single Element Anomaly Vector Feature	Project onto geographical map to form single element anomaly(element mapping)
Lithology Map	Mineral Map