Expert services

Customized consultations with our expert consultants.

What services do we provide through consultation?

1. Advanced algorithms for image processing in muon tomography.

Software and hardware development tailored for processing tomographic data.
Development of advanced image reconstruction algorithms.

2. Client-focused technical assistance.

Providing expertise in the operation of various equipment and support for research-specific hardware.
Diagnosing and resolving technical issues.
Trainings, workshops, webinars, seminars, tutorials, consulting sessions, masterclasses, and on-site demonstrations.

3. Device tailoring and customization.

Customization of equipment to meet specific customer requirements.
Developing new technical solutions.

Meet our experts

Dedicated professionals driving innovation in technology.

Prof Rob Erdmann

Area of expertise: Machine learning, computational imaging, materials science, cultural heritage research, digital art analysis, art conservation, interdisciplinary methods, physics, computer science, artifact preservation, imaging techniques and data analysis methods, Big Data analysis.

Prof Rob Erdmann specializes in computational imaging, machine learning, and materials science, applying these techniques to cultural heritage research. He develops advanced digital methods for art analysis and conservation. His interdisciplinary work bridges physics, computer science, and art restoration, contributing to the preservation and study of historical artifacts.

Dr hab. Artur Obłuski

Area of expertise: Nubian monasticism, medieval African archaeology, community-based archaeology, heritage conservation, archaeological project management, sustainable research strategies, cultural heritage preservation, integrating local communities in archaeological research.

Dr hab. Artur Obłuski specializes in Nubian monasticism, the archaeology of medieval African cities, and the integration of local communities in archaeological research. He offers expertise in managing large-scale archaeological projects, particularly in challenging environments like Sudan, and in applying community-based approaches to heritage conservation. Dr. Obłuski can assist museums, archaeological institutes, and research organizations with developing sustainable, collaborative research strategies, managing archaeological excavations, and enhancing cultural heritage preservation while involving local communities. His expertise helps bridge the gap between science and society, ensuring impactful and responsible archaeological research.
Dr. Obłuski has been awarded the ERC Starting Grant for his “UMMA” project and received the “Public Engagement with Research Award” from the European Research Council for his innovative approach to integrating local communities in archaeological research.

Renata Bozek

Area of expertise: Analytical system architecture design, data integration, algorithmic processing, data visualization, big data frameworks, GPU computing, scalability mechanisms, museum collections management, heritage conservation, innovative solution implementation, artifact protection, cultural heritage preservation.

Renata has extensive experience in designing modular analytical system architectures tailored to the management and preservation of museum collections and artifacts. She specializes in integrating data, algorithmic processing, and visualization methods to support heritage conservation efforts. Renata excels at creating detailed architecture plans, including data flow diagrams, integration points, and scalability mechanisms, ensuring the system meets both functional and security requirements. With expertise in big data frameworks and GPU-based computing environments, she ensures optimal performance in projects related to artifact preservation. Additionally, Renata has contributed significantly to museum collections management, developing innovative solutions and secure architectures to protect cultural heritage and support its long-term conservation. Her work bridges technology and cultural heritage, making her a key asset in projects focused on preserving and safeguarding valuable historical artifacts.

Dr Ewelina Miśta-Jakubowska

Area of expertise: Archeometry, chemistry, archaeology, physical techniques in archaeology, imaging techniques, neutron applications, material research, provenance studies, ore archaeology, heritage science, instrumental methods, MSI, IR (IRR, IRP, IRT), UVF, rengen czy tomografia neutronowa, Middle Ages archaeology.

Dr. Ewelina Miśta-Jakubowska is an expert in archeometry, specializing in the use of neutron tomography, MSI, IR, UVF, and other advanced imaging techniques to study historical artifacts and materials. She applies physical techniques to analyze the composition, provenance, and condition of archaeological objects. As Head of the Archaeometallurgy and Conservation Laboratory and Director of the Archaeometry Laboratory at the Jagiellonian University, she offers precise, non-invasive solutions for material analysis in archaeological research. Dr. Miśta-Jakubowska consults with museums, archaeological institutes, and research organizations, helping them integrate these advanced technologies to gain deeper insights into cultural heritage and artifacts.

Prof Jaap Velthuis

Area of expertise: Particle physics, detector development, radiation measurements, nuclear waste management, radiotherapy, homeland security, radiation damage analysis, academic and industry collaboration.

Jaap Velthuis is an expert in developing radiation detectors for future particle physics experiments, with a wide range of applications in areas such as nuclear waste management, radiation measurements, radiotherapy, and homeland security. He specializes in designing, developing, and analyzing radiation detectors, as well as studying the effects of radiation damage. As Business Fellow and Impact Director, he focuses on building strong partnerships between academia, industry, policymakers, and the public to deliver practical solutions and drive meaningful progress in these fields.

Dr Harald Fox

Area of expertise: Radiation-hard silicon trackers, muon tomography, imaging technologies, data analysis, particle physics applications, advanced scanning methods, technology integration.

With deep expertise in developing radiation-hard silicon for tracker upgrades, muon tomography for scanning large or dense objects, and outreach in experimental particle physics, this expert brings invaluable knowledge to a wide range of fields. His innovative techniques can be applied to enhance research in museums, archaeological institutes, and research organizations that require advanced imaging and data analysis methods. If your institution needs specialized insights into cutting-edge technologies for exploring artifacts, improving imaging systems, or advancing research in non-physics domains, his consulting services offer practical, results-driven solutions.

Prof Jeff Hartnell

Area of expertise: Neutrino physics, radiation detector technology, scintillator-type detectors, detector design and development, experimental particle physics, data analysis, experimental setup optimization, integration of advanced detection technologies.

Jeff Hartnell is an expert in neutrino physics and radiation detector technology, offering expertise for research institutions looking to enhance their experiments with advanced detector technologies. His expertise spans the design, development, and implementation of radiation detection systems, including scintillator-type detectors, to improve accuracy and data analysis. With a deep understanding of experimental particle physics, he can help institutions integrate innovative technologies into their research, optimize experimental setups, and provide insights into complex data analysis. Awarded the Institute of Physics HEPP Group Prize in 2013 for his significant contributions to particle physics and was elected a Fellow of the Institute of Physics in 2017.

Magdalena Dobrowolska

Area of expertise: Data analysis, computational physics, detection technologies, simulation development, high-performance computing, material analysis, structural diagnostics, medical imaging, algorithm optimization, signal processing, muon tomography, Monte Carlo simulations, scientific computing, software development.

Magdalena Dobrowolska is an expert in data analysis, computational physics, and detection technologies. She has experience working with large datasets, developing simulations, and improving detection systems for industry and research. Her skills in C++, ROOT, and high-performance computing help solve complex problems in material analysis, structural diagnostics, and medical applications. She has worked at the University of Bristol and Lancaster, helping teams process data, optimize algorithms, and improve imaging techniques. If you need someone who can analyze data, build simulations, or refine detection systems, Magdalena can provide practical solutions tailored to your needs.

Dr Paweł Sopicki

Area of expertise: Data Science, Machine Learning, simulations, vulnerability assessments.

Paweł is an expert in advanced data analysis, imaging technologies, and interdisciplinary research. With 20 years of experience at CERN, he specializes in applying innovative methods, such as non-invasive imaging and data interpretation. He offers practical guidance on selecting appropriate research tools, technologies, and resources to ensure accurate, reliable results.

Dr Noemi Zabari

Area of expertise: Data processing, muon tomography, cosmic radiation analysis, data pipeline design, ETL processes, sensor data integration, cloud computing (AWS, Azure), high-performance computing, algorithm optimization, scientific computing, space technology applications, machine learning for data analysis.

Noemi is an expert in data processing, cosmic radiation analysis, and muon tomography. She has extensive experience in managing research and technology projects, including leading companies in space-based monitoring systems and muon imaging. Her expertise includes designing and implementing data pipelines, integrating data from different detection systems, and optimizing cloud-based data management. She has held leadership roles at Muotech and Astrotectonic, as well as contributed to research initiatives at the Institute of Nuclear Physics PAN. Noemi specializes in developing efficient data workflows, error analysis, and high-performance data processing for scientific and industrial applications.

Dr David Edwin Álvarez Castillo

Area of expertise: Physics of cosmic rays, physics of neutron stars, Relativistic Heavy Ion Collisions, Particle Astrophysics, Bayesian Inference, imaging techniques and data analysis methods.

David is an accomplished physicist with over 15 years of experience in research, teaching, and worldwide collaboration, specializing in neutron star physics, cosmic rays, and particle astrophysics. He develops advanced imaging techniques and data analysis methods. With a global career spanning multiple countries, he is known for his cutting-edge methodologies and dedication to advancing scientific discovery.

Katsiaryna Katrankova

Area of expertise: UX/UI design, prototype design, market analysis, customer-oriented solutions, product design, AR (Augmented Reality), costume design, exhibition design, graphic design, visualization, interior design, clothing design.

Katsiaryna Katrankova is experienced in designing customer-oriented solutions and developing prototypes that enable efficient data flow from detectors to analytical systems. She has a strong background in market analysis, UX/UI design, and creating products tailored to specific client needs. She is skilled in designing and implementing UX/UI for software, as well as working on various design projects, including AR toys, costume design for films, and interior/exhibition design. Katsiaryna combines creativity with technical expertise, making her a valuable asset for projects focused on user experience, product design, or prototype development.

How does consulting with an expert work?

1. Select an expert and complete the form.

Each expert has a proven track record of successfully navigating the complexities of non-standard problems through extensive practical experience.

2. A quote and contract draft will be sent to you.

We craft a personalized commercial proposal, aligning your needs with our capabilities to find the optimal terms for partnership.

3. Receive online or on-site support from our expert!

Our experts will select the right technology for your application and ensure its effective implementation, including muon tomography or other solutions.

Would you like to receive a quote or ask for details?

Fill out the form or send message to expert@muotech.io, and our experts will reach out within 24 hours.

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