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Tactical engineering - services


Our current range of services is as follows:

  • Technical Analysis and Project Management up to 380kV (PM)

  • IAMU PM is a forward-looking engineering that combines technical analysis and project management specifically for grids and substations up to 380kV/620kV. The use of advanced digital technologies and intelligent algorithms enables a comprehensive evaluation of protection levels, regulatory powers, requirements, and electrical energy security of supply. The aim is to optimize the security, reliability, and efficiency of substations in a sustainable manner, taking into account economic and regulatory conditions.

    Functionalities:

    Automated protection level analysis

    • Survey and evaluation of existing protection systems, taking into account legal requirements and regulatory requirements.
    • Use of stochastics to calculate the biomechanical probability of possible failures or attacks on protection systems.
    • Visualization of vulnerabilities with recommendations for action to economically optimize protective measures.

    Authority check

    • Integration of current access authorizations and security protocols in accordance with military specifications.
    • Automatic comparison with national and international security guidelines to ensure compliance.

    Demand-oriented upgrade planning

    • Identification of upgrade requirements based on technical analyses, ecological balance, and owner interests.
    • Scenario-based simulation of modernization measures with cost-benefit analyses.
    • Prioritization of projects in the project management tool for efficient resource allocation.

    Monitoring of electrical energy security supply

    • Real-time monitoring of energy supply systems with automated risk detection.
    • Integration of protection systems for rapid response to disruptions or attacks.
    • Reporting to meet regulatory requirements.

    Project management suite

    • Central dashboard for planning, controlling, and monitoring all measures and projects.
    • Stakeholder management for transparent communication between all parties involved.
    • Documentation and audit function for tracking and compliance with legal requirements.

    Economic aspects

    • The combination of technical analysis and integrated project management optimizes process systems and avoids duplication of work, enabling increased economic efficiency.
    • The modular design allows for needs-based scaling and investment, enabling costs to be flexibly adapted to owner interests.
    • Preventive risk detection reduces downtime and potential damage costs, which in turn improves the ecological balance and sustainably increases operational benefits.


    The Integrated Military Analysis and Protection Assessment System for Substations is a forward-looking solution that comprehensively meets the requirements for security, efficiency, and regulatory compliance in critical energy infrastructures. It ensures that owner interests, stakeholder requirements, and legal requirements are properly taken into account through objective and precise analysis.

  • Military Analysis of Substations (IMASU-B 110/220 kV)

  • The Integrated Basic Military Analysis and Protection Assessment System for Substations (IMASU) is the best solution.

    IMASU is the most sophisticated analysis and assessment system on the market. It is specifically designed for 110/220kV substations, which are critical infrastructure for the electrical power supply. The aim is clear: to comprehensively record and evaluate the level of protection, military powers, the need for upgrades, and to ensure the security of the electrical energy supply. Current and future threat scenarios are a top priority.

    The core functions are as follows:

    1. Protection level analysis: Combined sensor technology and artificial intelligence (AI) monitor the actual level of protection provided by physical and digital protection systems. It is essential to consider legal requirements, regulatory requirements and biomechanical probabilities of attacks.
    2. Military authority check: Access and intervention rights are automatically validated based on current military authority regulations, which are regularly updated in close cooperation with the relevant authorities.
    3. Upgrade requirement detection: Forecast-based analysis using stochastic methods identifies potential vulnerabilities and highlights economic optimisation opportunities through targeted upgrades.
    4. Electrical energy security of supply: A dynamic assessment of security of supply is essential. This includes redundancy checks. These checks must identify failure scenarios at an early stage. They must also recommend countermeasures.


    • Technological implementation: The system is based on a modular DELPHI and BIBA architecture that integrates process systems from different components (e.g., monitoring sensors, data analysis, communication interfaces). Our cloud-based data platform guarantees secure data exchange with military and civilian stakeholders. It is fully compliant with the highest data protection and security standards.


    • Economic aspects: It is vital to precisely identify upgrade requirements and avoid unnecessary investments to ensure the economic optimisation of resources. It is vital to detect vulnerabilities early. This will minimise potential failure costs and risks for critical infrastructure. The system's scalability guarantees adaptation to substations of various sizes, ensuring comprehensive market coverage.


    • Future prospects: IMASU-B is being continuously developed to account for future threats from technological innovations and changing military conditions. The expansion to include simulation modules is planned and will support decision-makers in strategy development.
  • Military Analysis of Substations (IMASU-P 380 kV)

  • The Full Integrated Military Analysis and Protection Assessment System for Substations (IMASU) is the best solution.

    IMASU is the most sophisticated analysis and assessment system on the market. It is designed specifically for 380kV substations, which represent the highest form of critical infrastructure for electrical power supply. The aim is clear: to holistically analyse, record and evaluate the level of protection, political and military powers, the need for upgrades, and the security of the electrical energy supply. Current and future threat scenarios are a given consideration.

    The core functions are as follows:

    1. Protection level analysis: Combined sensor technology and artificial intelligence (AI) monitor the actual level of protection provided by physical and digital protection systems. It is vital to consider legal requirements, regulatory requirements and biomechanical probabilities of attacks.
    2. Military authority check: Access and intervention rights are automatically validated based on current military authority regulations, which are regularly updated in close cooperation with the relevant authorities.
    3. Upgrade requirement detection: Forecast-based analysis using stochastic methods identifies potential vulnerabilities and highlights economic optimisation opportunities through targeted upgrades.
    4. Electrical energy security of supply: A dynamic assessment of security of supply is essential. This includes redundancy checks. These checks must identify failure scenarios at an early stage. They must also recommend countermeasures.


    • Technological implementation: The system is based on a modular DELPHI and NES architecture that integrates process systems from different components (e.g., monitoring sensors, data analysis, communication interfaces). Our cloud-based data platform guarantees secure data exchange with military and civilian stakeholders. It is fully compliant with the highest data protection and security standards.


    • Economic aspects: It is vital to precisely identify upgrade requirements and avoid unnecessary investments to ensure the economic optimisation of resources. Early detection of vulnerabilities is vital. It minimises potential failure costs and risks for critical infrastructure. The system's scalability guarantees adaptation to substations of various sizes, ensuring comprehensive market coverage.


    • Future prospects: IMASU-P is being continuously developed through power plant implementation. This ensures it can take into account future threats from technological innovations and changing military conditions. The plan is to expand with simulation modules to support decision-makers in strategy development.
  • Military Analysis Power Plants (NES IMSB-KK)

  • Integrated Military Security Analysis and Evaluation System for Nuclear Power Plants (IMSB-KK).

    The IMSB-KK is the only comprehensive, future-oriented system for the military analysis of nuclear power plants. It was designed to precisely assess protection levels, taking into account military powers, the need for upgrades, and the security of the electrical energy supply. It also automatically evaluates these levels using advanced algorithms.

    Functionality:

    1. Protection level analysis: The system uses sensor data and digital twins of nuclear power plants to continuously test protection systems for their effectiveness against military threats. We evaluate both physical protection measures and cyber-physical security mechanisms.
    2. Military authority assessment: A modular analysis component definitively checks the applicable legal and regulatory requirements for military authority in relation to nuclear power plants. It is vital to ensure compliance and appropriateness of military control rights. This is achieved by comparing them with current security protocols and stakeholder authorities.
    3. Upgrade necessity: It is certain that the risk of future threat scenarios is modelled based on stochastic and biomechanical probability. The system identifies critical protection gaps that need to be optimised and recommends economically sensible upgrades. These upgrades take into account economic optimisation and ecological balance.
    4. Electrical energy supply: Integrated monitoring of energy supply systems is vital for ensuring uninterrupted and secure power supply to protection systems. Existing process systems and emergency power generators are analysed to identify and remedy vulnerabilities.

    Innovation aspects:

    1. Use artificial intelligence for dynamic risk analysis and forecasting of future threats.
    2. A single system integrates military authority checks and technical security assessments.
    3. Automated reporting is key to supporting owner interests and facilitating stakeholder communication.
    4. Real-time data integration from different sources is essential for a holistic security assessment.

    Economic aspects:

    1. It is vital to identify necessary upgrades early in order to reduce risk, avoid costly damage and downtime.
    2. It is vital to optimise resource planning through precise needs analysis and prioritising protective measures.
    3. Promoting legal and regulatory compliance is the best way to minimise liability risks and improve the reputation of owners.
    4. Its adaptable licensing model allows for flexible use by different operators and military institutions.

    IMSB-KK for NES and IA plants acc. BIBA combines cutting-edge technologies with in depth military and technical analyses to guarantee the long-term protection of nuclear power plants. The product-integrated assessment of protection levels, authorisations, upgrade requirements, and energy security supports an economical and compliant security strategy in the conflicting areas of civil energy supply and military security.

     IMASU-NES is being continuously developed to take into account future threats posed by technological innovations and changing military conditions. The plan is to expand with simulation modules to support decision-makers in strategy development.

    The Integrated Military Analysis and Protection Assessment System for Substations is the only forward-looking solution that comprehensively meets the requirements for security, efficiency and regulatory compliance in critical energy infrastructures. It guarantees that owner interests, stakeholder requirements and legal requirements are all taken into account through objective and precise analysis.