This software establishes a testing environment for command and control technologies to verify suitable defensive operations control functions for the operations control center as part of the 'Command and Control Technologies for Guided Missile Multi-Layered Defense' project.
- Processing of airborne threat detection/tracking information
- Command/control of interception systems
- M&S-based testing devices
Threat Detection/Tracking | Command/Engagement Control of Interception Systems |
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- Airborne Threat Track Management - Sensor Integration through Data Link (Link-16) Simulation - Detection of Airborne Threats through Detection System Simulation - System Deployment and Track Movement Simulation Based on Training Scenarios |
- Integration with Higher and Adjacent Systems - Management of Launcher Equipment and Status - Engagement and Operational Control of Airborne Threats - Display of Engagement and Interconnection Status |
This launch control console video subsystem software is installed on various guided weapon launch control consoles for surface-to-surface, surface-to-air, air-to-surface, and other operations. It manages guided weapon status information, establishes engagement plans, executes launch procedures, and performs integration with higher command systems and inspection functions.
Engagement Plan Development and Launch Procedures | System Status Display and Inspection |
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- Integration with Higher Command Systems - Engagement Plan Development and Management - Launch Procedures and Emergency Termination Procedures |
- Display of Internal/External System Integration Status - Display of Launcher and Guided Missile Status - Self-Check and System Equipment Inspection - Internal Training and History Management |
This system supports the development of software for the Korean Vertical Launching System (KVLS-II), capable of managing and controlling the status and launch of guided munitions when installed on destroyers (KDX-III Batch-II, KDDX), along with simulation software for test evaluation.
Provided Functions | Key Specifications |
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- Display of launcher and guided missile status - Launcher inspection - Vessel history management - Training configuration and simulation |
- Vertical Launching System Simulation - Upper Interfacing System Simulation - Vessel Gyro Simulation - Integrated Sonar Simulation - Real-time Data Collection and Analysis |
This simulation software is designed to create the necessary development integration and testing environment for system testing and performance verification in the project aimed at enhancing the capabilities of the Ballistic Missile Operations Control Center (KTMO-Cell). It simulates adversary ballistic missile launch environments, ballistic missiles, detection systems, and interception systems.
Development Integration Testing Environment | Test Evaluation & Testing Environment |
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- Operational Control (Scenario Creation/Editing, Test Execution/Control, Test Observation) - Simulation of Ballistic Missile Trajectories - Simulation of Detection Systems (EWR, Early Warning Radar) |
- Operational Control (Scenario Creation/Editing, Test Execution/Control, Test Observation) - Simulation of Ballistic Missile Trajectories - Simulation of Detection Systems (EWR, Early Warning Radar) |
Development Support Equipment
This supporting equipment is designed to assist in the development of actual devices by periodically or randomly transmitting simulated signals and data to test and verify the functionality and performance of the equipment. It measures and analyzes the output signals and data.
Maintenance Support Equipment
This equipment is developed for conducting inspections and maintenance of devices during military operations. It identifies faults through unit and field maintenance, enabling the maintenance of LRUs (Line Replaceable Units) or SRUs (Shop Replaceable Units).
Development Support Equipment | Maintenance Support Equipment |
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- Scenario-Based Equipment Integration Simulation - Real-Time Display of Equipment Integration Simulation Status - Real-Time Input Signal/Data Simulation |
- Perform Self-Check Functions - Execute Inspection Procedures for LRU and SRU - Manage Inspection History and Generate/Output Maintenance Logs (Reports) |
This device controls the Complex Guidance Threat Signal Simulation Generator (EPSS) to generate signals through antennas mounted on portable moving target/jamming signal transmission devices. The generated signals are used for tracking simulated complex guidance threat signals and measuring target and jamming signals via signal measurement equipment.
Jamming Signal Transmission Device Software | Signal Measurement Device Software |
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- Jamming Signal Transmission Device Mode Configuration and Status Display - Control of Moving Target Movement |
- Signal Measurement Device Mode Configuration and Status Display - Data Input/Output and Storage - Signal Measurement and Analysis |
This device analyzes the effectiveness of jamming techniques for each simulated threat signal to verify the performance and analyze the results of the autonomous jamming transmission and reception equipment.
Jamming Effect Analysis | Deep Learning-Based Autonomous Jamming | Threat Signal Simulation Device (EPRS) Testing |
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- Scenario-Based Threat Signal Simulation - Jamming Effect Analysis and Result Display - Integration and Control of Threat Signal Simulation Device (EPRS) |
- Management of Jamming Technique Catalog - Storage of Jamming Effect Analysis Results - Development of Machine Learning Algorithms - Establishment of Machine Learning Database (Threat Information and Jamming Technique Information) |
- EPRS Scenario Management - EPRS Radar Signal Simulation/Control |
This software performs jamming technique configuration through integration with a jamming pod and provides unmanned aerial vehicle (UAV) control and status information reception through target UAV integration. It offers jamming effect analysis based on the configured jamming techniques.
Control Display Software | RC Signal Simulator Software |
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- Jamming Technique Configuration and Management - Jamming Pod Inspection - Jamming Pod Control and Status Display - Target UAV Jamming Status Display - Jamming Effectiveness Display |
- Target UAV Control - Target UAV Status Display - Integration with Control Display Device |
This central control software measures the electric field intensity of EMP sources at varying distances using a D-dot sensor, displaying the results on-screen. It also provides analytical functionality for assessing EMP effects on various target equipment (such as PCs, drones, radars, GPS, etc.).
Measurement of EMP Source Electric Field Intensity | Analysis of EMP Effects on Target Equipment |
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- Oscilloscope Integration - Collection of Electric Field Intensity Waveform Data from D-Dot Sensor - MATLAB Integration for Graph Display Data Calculation - Display of Output Power, Frequency, Frequency Spectrogram, Converted Voltage, and Current Graphs |
- Integration with Oscilloscope and Signal Generator - Integration with Target Equipment (PC, Drones, Radars, GPS, etc.) - Analysis of Effects Based on Received Data and Visual Inspection - Display of Effectiveness Analysis Graphs - Collection of Electric Field Intensity Waveform Data from D-Dot Sensor |
This detection radar is designed to identify objects posing collision risks on the flight paths of future urban air mobility vehicles (such as small aircraft, drones, and flocks of birds) to ensure safe operation. It features a compact, low-power design capable of detecting more than ten targets simultaneously, making it suitable for use as ground surveillance radar for critical national and civilian facilities, border monitoring, and as an anti-drone surveillance radar for detecting small drones.
K-Band Antenna Integrated Transceiver | Digital Signal Processor (DSP) | Target Classification AI Model |
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- 128-Channel Transmit/Receive Active Phased Array Antenna - Electronic Beam Steering Control Based on Control Signals from Signal Processor - High-Power Transmission Amplification and Low-Noise Amplification Features - Radome to Minimize Radiation Loss |
- Generation of Baseband FMCW Transmit Waveform Based on DDS (Digital Direct Synthesis) - 2D Array Beamforming Control and Range-Doppler 2D FFT Signal Processing FPGA - Digital Beam Generation (Beamforming) and Beam Steering - Clutter Removal, Detection of Moving Targets' Distance, Direction, Speed, and RCS - Generation of Moving Target Detection/Tracking/Classification Data and External Interface |
- Automatic Target Classification Using AI Models - Training and Prediction of Target Information and Doppler Data - Automated Object Detection and Classification |
The military satellite communication system's satellite terminal is equipment operated at the end-user level, featuring satellite terminal software for operator computer devices that reflect user convenience and information visibility, as well as software for enhancing M&C (Monitoring and Control) performance.
Operator Computer Device Satellite Terminal Software | M&C Performance Enhancement Terminal Software |
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- Satellite Terminal for Surface Ships - OTM (On The Move) Satellite Terminal - Multiband Satellite Terminal |
- Fixed Terminal - Vehicle TE/TS Terminal - Terminal for Surface Ships/Submersibles |
The remote control equipment software enables operators to remotely control and manage unmanned surface vessels (USVs) through the integration of wireless communication devices within the USV system. It provides real-time display and monitoring of operational information, mission performance data, video feeds, and status information on multiple displays. Additionally, it allows for the creation, editing, and management of mission plans necessary for the USV to carry out its missions.
Mission Planning Management | Remote Operation Control |
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- Mission Plan Creation and Management - Maritime Information Management - Mission Planning System Management |
- Remote Control and Status Management of Mission Equipment - Control and Management of Remote-Controlled Electronic Charts - Operational Mode and Emergency Mode Management - Results Reproduction Function and Analysis - Maintenance Management |
This software is installed and operated in the Large Test Vessel Test Control System (MCC, Mission Control Center) to support research and development as well as live-fire testing and training of guided weapons deployed on naval vessels.
Test Control System Software | Test Bed Establishment |
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- 3D Visualization Based on SIMDIS - 2D Visualization Based on SIMDIS Plot-XY Plug-in - Integration and Visualization of ADS-B/AIS - Test and Safety Zone Editing/Management - Mission Planning and Pre-Simulation Algorithm Development - Real-Time Tracking Data Information Processing |
- Establishment of Test Bed within the Land Test Control Center - Development/Testing Environment Configuration for Multi-Platform (Linux, Windows) - Development of Site Simulators (Land Test Control Center, Vessels, Tracking Stations, etc.) |
This ballistic missile simulation device software is designed to create virtual training data necessary for developing information analysis AI learning algorithms as part of a research and development project aimed at enhancing ballistic missile defense capabilities against ballistic missile threats.
Support Simulator | Virtual Data Generation |
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- Simulator Software Design and Development - Generation and Establishment of Virtual Training Data |
- Development of Training Data Generation Model - Establishment of Training Data Database - Creation of MLOps Development Environment |
This training equipment is designed to simulate an environment similar to real operational conditions for training the launch procedures of guided weapons currently in use by the military. It enables understanding of power and signal flow between launch system devices, mastery of launch procedures, and training for response measures in case of abnormal situations.
Scenario-Based Training Execution | Training Results Analysis/Playback |
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- Training Scenario Creation/Editing - Scenario-Based Training Execution/Control - Integration with Upper Command Systems and Simulation of Vertical Launch Systems (KVLS, KVLS-II) - Display of Power/Signal Flow Between Launch System Devices at Each Stage of the Launch Procedure |
- Storage of Training Execution Results - Playback and Analysis of Training Results - Management of Training History and Generation of Reports |
This M&S-based simulation software supports the operational concepts, procedures, integration ICD verification, functionality improvements, system performance verification, and testing and evaluation of guided weapon systems, aiding in the development and testing of guided weapon systems.
Development Bench | Integrated Test System |
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- Verification of System Operational Concepts and Procedures - Verification and Improvement of Inter-Equipment ICD - Detection/Interception/Threat System Simulation Software - Upper, Adjacent, and Other System Simulation Software |
- Scenario-Based Testing Execution and Control - Detection/Interception/Threat System Simulation Software -Upper, Adjacent, and Other System Simulation Software Support for Testing and Evaluation |