Beholder

5 Practical benefits of satellite data for geologists: efficiency and precision without limits Satellite data has revolutionized geology, unlocking possibilities that once seemed unattainable. Here are five key advantages that satellite technologies provide to modern geologists: 1. Risk Reduction Satellite imagery enables a detailed analysis of terrain before any fieldwork begins. This minimizes the risks of investing in unpromising areas and helps focus resources on the most critical sites. 2. Detection of Subtle Anomalies Data from satellites like Sentinel-1 and Sentinel-2 can identify subtle geophysical and geological anomalies, which may indicate the presence of mineral deposits. This is particularly valuable in areas where traditional methods yield inconclusive results. 3. Assessment of Remote Areas Satellites provide access to data from hard-to-reach or geographically isolated regions. This makes it possible to evaluate the potential of even the most remote areas without the need for costly and time-intensive expeditions. 4. Cost and Time Savings With satellite data, geologists can create preliminary resource potential maps much faster than with traditional field methods. This reduces exploration costs by 5-10 times and enables faster decision-making. 5. Environmental Responsibility Satellite analysis avoids extensive physical disruptions to nature, minimizing environmental impact. This promotes a more sustainable approach to resource exploration. Satellite data is opening new horizons for geologists, delivering precision, efficiency, and innovation in exploring Earth’s subsurface. Beholder’s tools help you maximize this potential to achieve your goals. Want to learn more about the possibilities of satellite analysis? Contact us today!

How AI works at Beholder: from data collection to deposit prediction Have you ever wondered how artificial intelligence helps uncover hidden treasures beneath the surface? Beholder employs advanced machine learning algorithms to analyze vast datasets and accurately predict promising mining zones. Let’s break down how this works step by step. 1. Data Collection We use cutting-edge technology to gather critical data: • Sentinel-1 and Sentinel-2 Satellites: High-quality images of the Earth’s surface, providing information about soil structure, vegetation, and terrain changes. • Geophysical Data: Gravimetry and magnetometry detect variations in magnetic and gravitational fields, indicating potential mineral deposits. • Geological Data: Information on rock types and crustal structures for a deeper understanding of subsurface conditions. 2. Data Integration All collected data is integrated into a unified database, creating a comprehensive view of the area: • Combining satellite images, geophysical metrics, and geological maps. • Data normalization to ensure accurate processing. 3. Data Processing with AI Algorithms Our machine learning models analyze the data to identify hidden patterns: • Pattern Recognition: AI detects anomalies in geophysical fields that could signal mineral deposits. • Correlations: Combining various data types refines the probability of discovering minerals. 4. Predicting Mining Zones Based on processed data, the algorithm generates a map of priority zones: • Ranking: Highlights areas with the highest potential. • Geolocation: Pinpoints exact locations for further exploration. • Visualization: Results are presented as interactive maps and detailed reports. 5. Client Recommendations • Mining companies receive ready-to-use reports, enabling them to focus on the most promising areas. • Investors assess risks based on precise deposit forecasts. Benefits of This Approach • Speed: Data processing takes days, not months. • Accuracy: Algorithms minimize the risk of false results. • Cost Savings: Reduces fieldwork expenses by up to 70%. Beholder is redefining the rules of mineral exploration. Want to learn more? Contact us, and we’ll show you how AI can work for you.

Beholder at #WebSummit2024: Taking innovation to the global stage What an incredible journey it’s been! This year, Beholder had the privilege of being part of #WebSummit2024 in Lisbon – one of the most prestigious tech events worldwide, uniting over 70,000 entrepreneurs, investors, and thought leaders from across the globe. 🎯 A big moment for us Beholder proudly showcased our own dedicated booth, where we shared our mission to transform mineral exploration with the power of AI, sensing satellites and geophysics. Engaging with thousands of visitors, we had the chance to: • Present our vision for sustainable resource discovery. • Forge valuable connections with industry leaders and potential partners. • Receive invaluable feedback and ideas from a global tech community. For us, this wasn’t just an opportunity to display our technology. It was a platform to highlight how innovation can create a more sustainable future, optimize resources, and reduce environmental impact in one of the most challenging industries. We’re thrilled by the momentum #WebSummit has given us and are looking forward to building on the connections and insights gained. Thank you to everyone who visited our booth, shared your thoughts, and joined us in this exciting chapter of our journey. We also want to express our gratitude to the incredible Ukrainian delegation for making this possible. Participation in #WebSummit2024 was made possible thanks to the joint efforts of co-organizers: the Ministry of Digital Transformation of Ukraine, the Ukrainian Startup Fund, and the Ukraine-Moldova American Enterprise Fund; and partners: Nova Digital, Нова пошта, the Seeds of Bravery, StrategEast, the Digital Ukraine, and the Embassy of Ukraine in Portugal. Beholder is just getting started. Stay tuned for more updates – the best is yet to come! #WebSummit2024 #WebSummitLisbon #Startups

What a week it’s been at Slush 2024! 🎉 Last week, the Beholder team, led by Andrey Sevryukov and Daniil Lubkin attended Slush 2024 in Helsinki – one of the world’s largest tech conferences, bringing together over 12,000 entrepreneurs, investors, and innovators from more than 100 countries. It was an absolute highlight to see Beholder step onto the global stage and share our vision of revolutionizing mineral exploration. 🌍 Combining sensing satellites, geophysics, and AI-powered algorithms, we’re setting a new standard for sustainable and efficient resource discovery. 🎯We are proud that one of our co-founders, Andrey Sevryukov participated in a Google panel discussion about the role of AI in creating a sustainable future. It was an opportunity not only to share our expertise but also to hear insights from leading experts on how technology can change the game in the industry. On top of that, we had countless meaningful conversations with investors, partners, and industry experts. The energy, ideas, and connections from Slush reaffirmed one thing: we’re not just solving a problem, we’re building the future of exploration. 🚀 Thank you to everyone who made this week unforgettable. To our growing network of supporters, clients, and collaborators: we’re just getting started.

Traditional mineral exploration vs. Beholder technologies: real savings for your business Mineral exploration has always been an expensive and time-consuming process, especially for small and medium-sized mining companies. However, Beholder is transforming this scenario. By combining artificial intelligence, satellite data, and geophysical analysis, we significantly reduce costs and accelerate the process. Traditional Exploration Methods • Time: Identifying promising areas can take years. • Cost: Geophysical surveys, drilling, and manual analysis can cost hundreds of thousands, sometimes even millions of dollars. • Risks: Handling large volumes of data requires significant human resources, increasing the risk of errors and missed opportunities. • Environmental Impact: Extensive fieldwork can harm the environment. Beholder Advantages 1. Speed: Our AI algorithms analyze geophysical data and satellite imagery 10 times faster. Tasks that used to take years are now completed in a matter of weeks. 2. Cost Savings: Using Sentinel-1 and Sentinel-2 satellites replaces expensive fieldwork. Small companies save up to 70% of their budget during the early exploration stages. 3. Accuracy: AI minimizes the risk of errors, ensuring a high probability of identifying promising deposits. 4. Sustainability: Reducing physical surveys helps preserve the local ecosystem. Time Savings Chart • Traditional Methods: 12-18 months to assess a single site. • Beholder: 2-4 weeks to deliver an integrated report. Who Benefits from This Solution? • Small Mining Companies: Gain a competitive edge by reducing exploration costs. • Investors: Minimize risks by quickly assessing project prospects. • Governments: Develop strategic resource maps for entire regions. With Beholder, you invest in precision, speed, and efficiency. Leave traditional methods behind and embrace the future of mineral exploration. 👉 Learn more about our case studies and opportunities for your business!

Today, the challenge of finding a balance between AI efficiency and environmental protection is becoming crucial for the natural resource exploration industry. AI has immense potential to optimize processes, reduce costs, and enhance data accuracy in geological research. However, it is essential that these technologies are employed while adhering to increasingly stringent environmental regulations. In recent years, many countries have tightened regulations to limit the negative impact of mining operations on the environment. For instance, the European Union has implemented the European Green Deal, aiming for significant reductions in carbon emissions and ecosystem impact. Australia has also enacted strict environmental protection standards, particularly through the Biodiversity Protection initiative, while Canada has established reporting requirements under the NI 43-101 standard. For Beholder, integrating AI is important not just as a tool for improving efficiency but also as a means to reduce ecological footprints. Our remote sensing technology and satellite data significantly decrease the need for invasive fieldwork, helping to preserve ecosystems and reduce pollution and soil disturbance risks. AI can also assist in adhering to reporting and monitoring standards. Real-time data usage ensures compliance with the latest environmental regulations, which is essential in the face of new global challenges. The application of AI in mining is not just about efficiency; it’s about responsibility to the planet, and Beholder remains at the forefront of this important transformation. #AI #Geology #MiningInnovation #Sustainability #EnvironmentalResponsibility #MineralExploration #GreenMining #FutureOfMining

In the field of mineral exploration, data quality not only determines project success but also resource utilization efficiency. Beholder sets new accuracy standards in geological data collection and processing, significantly enhancing decision-making throughout exploration phases. By leveraging advanced remote sensing techniques and intelligent algorithms, we provide deeper insights into subsurface structures. Our emphasis on integrating various data types—satellite imagery, gravimetric, and magnetometric measurements—delivers a comprehensive understanding of geological conditions, mitigating risks associated with traditional methods. Our technologies comply with leading international standards, including JORC and NI 43-101, ensuring high data reliability. Beholder not only implements advanced solutions but also establishes a new benchmark for geological information quality, making our technology competitive and reliable for the global community. #Geology #DataInnovation #MineralExploration #AIinMining #Geophysics #MiningTechnology #ResourceDevelopment

The first part of the Beholder team’s expert interview on the topic «The use of artificial intelligence in mineral exploration» How is AI currently used in mineral exploration? Today, artificial intelligence (AI) plays a key role in mineral exploration. Through machine learning algorithms, AI can analyze large volumes of geological, geophysical, geochemical, and remote sensing data. This automation enables the discovery of hidden patterns that are difficult for humans to detect and significantly improves the accuracy of predictions about potential deposits. How does AI work with remote sensing technologies to improve results? AI processes data from satellites and drones, including high-resolution images, spectral, and radar data. This helps to identify anomalies that may indicate the presence of mineral resources. Additionally, AI integrates multiple data sources to create 3D models representing both surface and subsurface geological structures. This simplifies early resource assessment and enables a focus on promising drilling zones. How reliable are AI-based predictions compared to traditional methods? AI demonstrates high accuracy when analyzing large and complex data sets, identifying hidden relationships that may be unavailable to traditional methods. The quality of data is crucial; incomplete or noisy data can lead to inaccurate AI results. AI also requires proper calibration and validation to avoid incorrect conclusions. Therefore, geological expertise remains essential to verify AI predictions. How does implementing AI change data analysis in the early stages of exploration? AI significantly speeds up the data analysis process, reducing the need for manual work. Algorithms automatically identify hidden patterns in spatial and temporal data, allowing geologists to pinpoint potentially promising zones for further study. This enhances analysis efficiency and minimizes the risk of human error. The next part will be in the following post. Stay tuned.📌

Gravimetric analysis is an essential tool in modern resource exploration, opening new prospects in mineral discovery. The method involves measuring variations in the Earth’s gravitational field, allowing for the identification of subsurface anomalies associated with different rock types and minerals. This technology is particularly effective for detecting ore bodies, oil, gas, and other resources at significant depths where traditional methods are less effective. Gravimetric analysis provides data on the density of geological formations, helping to accurately locate resource deposits. Importantly, this method enables exploration over vast areas without the need for physical disruption to the environment, thereby reducing costs and risks. Additionally, its use in the early stages of exploration allows for optimizing subsequent investments in drilling and detailed studies. For Beholder, gravimetric analysis is not just a tool but a part of our comprehensive strategy to utilize advanced technologies for precise and environmentally responsible exploration. Our AI algorithms integrate gravity data with satellite imagery and other geophysical methods, creating a holistic view of subsurface resources. #Gravimetry #MineralExploration #Geophysics #AI #ResourceDiscovery #SustainableMining #DataDriven

Modern remote sensing methods are integral to geophysical research, particularly due to satellite technology capabilities. At Beholder, we utilize satellites to collect vast amounts of data from remote and inaccessible areas, significantly enhancing exploration efficiency. These data, integrated with AI algorithms, enable us to create high-precision geophysical models that quickly and accurately identify potential mineral deposits. The advantages of remote sensing satellites lie not only in speed but also in their ability to reduce risks and costs associated with traditional research methods. Satellite imagery, combined with gravity and magnetic analysis, allows for a deep understanding of the Earth’s surface structure, uncovering underground resources with an accuracy that was unattainable decades ago. This is especially important given the global demand for critical minerals, as companies require quick, cost-effective, and environmentally responsible solutions. Beholder integrates remote sensing satellites with geophysical methods to ensure accuracy and scalability in mineral exploration. This allows small and medium-sized companies to leverage advanced technologies to achieve results that were previously accessible only to larger market players. #RemoteSensing #Geophysics #SatelliteData #AI #MineralExploration #SustainableMining