HAVELSAN participates in acquisition of Peace Eagle AEW&C as the sole in-country subcontractor of BOEING for the Mission Computing Segment (MCS) and Ground Support Segment (GSS).
HAVELSAN developed Turkish unique software modules for mission processor, tactical display, communication, ESM systems and man-machine interfaces. HAVELSAN also realise the test and integration of these software to the 737 AEW&C aircraft.
By the Integrated Product Team (IPT) approach, cross-functional, semi-autonomous, co-located working teams manage all aspects of the program. HAVELSAN participates all the engineering processes throughout the program, starting from the system analysis till the end of system test and evaluation. In the scope of the program, HAVELSAN develops, modifies and integrate 12 software modules (CSCIs).
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- System Analysis and Design of Turkish unique modifications,
- Mission Computing Segment software Turkish unique design, development, integration and testing,
- Ground Support Segment software Turkish unique design, development, integration and testing,
- Hardware and software integration for the Ground Support Segment, which is composed of the Software Support Center, Mission Support Center and Mission Simulator,
- Software Development Laboratories (SDL) and System Integration Laboratories (SIL) operation in Turkey,
- System test and evaluation,
- Integrated Logistics Support (ILS) for the MCS and GSS throughout the service life of the system.
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Turkey AEW&C Team, in which HAVELSAN is one of the main subcontractors in the Peace Eagle Project, has got the Award of Excellence by the Joint Leadership Council of Boeing in 2008.
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The aim of the Meltem Project is to convert CN-235 aircraft to MPA/MSA and to deliver the associated ground segments. The Project includes the development, integration and testing for 6 MPAs for the Turkish Navy and 3 MSAs for the Turkish Coast Guard. In addition two ground control sites for the MPA and three ground control sites for the MSA are to be developed, integrated, installed and qualified.
The Project began in 2003 with signing of a contract between the SSM (Undersecretariat for Defense Industries) and THALES Airborne Systems, the main contractor for the MELTEM Program. In the same year HAVELSAN signed an agreement with THALES as the main local subcontractor.
Ground Support System, which is one of the two main sub system of this Project, has been developed by HAVELSAN. In the other main sub system, Airborne Platform, functional mission computer softwares are developed.
HAVELSAN provides Tactical Command System (TCS) computer, Tactical Command and Control Information System (TCCIS), Ground Control Station (training system included), System Integration Test Workbench, Mission System Tools and Integrated Logistic Support.
The Tactical Command and Control Information System (TCCIS) for ground segment software has been developed, integrated with hardware and delivered. TCCIS includes mission preparation, monitoring replay, briefing and debriefing functions.
Tactical Command System is a mission Computer software.
This software, which will stand on Maritime Patrol Aircraft and Maritime Surveillance Aircraft includes to systematize the datas from different sensors, to make the command and control operations with using the datas, to change the required datas with the ground station and to record the information.
The integration of the (TCS - MAS) software on the (TCS - Tactical Command System) equipment (hardware) after the completion of the TCS-MAS within the first half of the year 2008, the integration of the (TCS - Tactical Command System) with the sensors that form the mission system and finalization of STS/MSA-OTS (Simulation Training System and Operator Training System) will be realized within the years 2008 - 2009.
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According to Open Skies Agreement, one of CN - 235 Light Transportation Aircraft has been modified as an observation airplane. HAVELSAN designed and develped Mission Planning System. The Open Skies Aircraft; is the first observation plane in its class all over the world.
Within the context of this Project, HAVELSAN is responsible from the design and application of Mission Planning System. Open Skies Aircraft (ASA) is the first observation plane in its class all over the world; and it's also estimated that the Aircraft will be produced for the countries which are in need.
Developed Sub-Systems:
Mission Planning and Control System
- Mission Planning
- Mission Monitoring and Recording
- Sensor Control
- Plan / Log Transfer
Aircraft Camera Parameter Control and Data Recording
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EWTTR provides fully instrumented and integrated, near-real threat environment for all types of Electronic Warfare System Test and Pilot Training. HAVELSAN provides turn-key, original solutions to all Electronic Warfare Range needs and requirements.
EWTTR has been designed and implemented by HAVELSAN with no foreign licenses or support acquisition. EWTTR was delivered to the Turkish Airforce in 1999 and succesfully operated by HAVELSAN.
EWTTR features are :
- Various fully instrumented and integrated actual weapons systems,
- Various threat emitter simulators,
- Entirely modular structures,
- All weapon systems in the EWTTR offer the following in real-time : Data Collection, Data Recording, Visualization in 3D environment, Artillery and Missile Simulation,
- Various post-flight evaluation reports,
- Continuous development capability based on the needs and requirements.
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Military Enterprise Information System (MEIS) is a comprehensive military information system, covering all integrated business processes of an Air Force from strategic through tactical and operational levels.
C2 functionality (Battle Management) within MEIS is supported by two other infrastructural base systems: Resources Management and Systems Management. High availability/survivability/security/performance requirements of a military integrated command and control system are ensured by the Systems Management System. On top of the Battle Management, Resources Management and Systems Management functionality, there exists a Decision Support System which uses data from underlying transactional components for supporting decision makers.
MEIS is an automation system covering an extensive set of Air Force functions, and serves to all levels of the Air Force organization from operational to execution levels.
Basic characteristics of MEIS are as follows:
- A comprehensive set of functional C2 modules for a military enterprise information system
- A robust, highly survivable, multi-tier, modular C2 solution which can work integrated with a Resources Management System
- Multi-tier and component-based architecture, object-oriented methodology
- Customizations, and highly developed extensions of industry leader ERP application incorporating best practices and effective methods for Resources Management functions (HR, FINANCE, MATERIALS)
- High degree of integration between business processes
- Visibility of operations and assets across organizational, locational and hierarchial boundaries subject to appropriate authorization and command levels.
- Analytical tools for monitoring and analyzing processes and embedded flexibility for further additions and improvements
- Multi-level security components at computer, site, and system levels
- Information security maintained through nationally developed software and in accordance with industry standards
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Flexible and expandable functional capabilities, security, reliability and survivability, high performance and working within an integrated structure are of utmost importance and are necessities of the modern Armed Forces of today.
Battle Management System (BMS) has been designed and developed to cover the operational requirements of Turkish Air Force with consideration of appropriate security and technology criteria. It has all the required critical characteristics and functionality for the business processes of an Air Force.
Battle Management System provides capability to perform several detailed processes within the Air Force which comprise planning and execution studies at Headquarters, Tactical Forces, CAOC and WOC centers, fleet and radar bases and at all command echelons.
Battle Management System has been designed as a set of stand-alone workable submodules with strong data and process integration among them, thanks to the component-based architecture. Battle Management System works integrated with the Resources Management System in order to access and use the resources information for planning of Air Force tasks.
Battle Management System is composed of Operations, Intelligence, Flight Training submodules. These submodules have been designed and developed in a component-based way that modules can work together or independently. BMS has been developed with Java and EJB technologies, object-oriented methodology and multiple-tier and component-based architecture.
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In order to meet the requirement of Naval Force Command, DEARSAN Shipbuilding Yard is the main contractor of 16 New Type Patrol Boat Procurement Project and HAVELSAN is a Main Subcontractor for Combat Systems of this project.
With New Type Patrol Boat; Survey, Observation, Patrol and Submarine Defence War mission functions will be covered in Gates, Base and Harbors and near regions to the coasts, and also it should be contributed to the mission functions of Base and Harbor Defence.
In accordance with the concept of New Type Patrol Boat, HAVELSAN performs the followings;
- To supply the electronic equipments/systems in C4ISR group
- To produce Ship Data Distribution System as a HAVELSAN product
- System Engineering and ILS operations
- Ship Integration
- Integration with Weapon Systems and C4ISR group
HAVELSAN achieves lots of experiences and knowledge in GENESIS and MILGEM Projects and he will reinforce his capabilities in the field of warfare systems in upper water platforms with using these experiences and knowledge in NEW TYPE PATROL BOAT Project.
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The G-Class Frigate Combat Management System Modernization Program (G-GSMP) was initiated by the Turkish Naval High Command for the modernization of G-Class frigates by removing the obsolete Combat Management System and integrating GENESIS (Ship Integrated Combat Management System). The scope of this programme is to carry out the system development, integration, hardware and software testing of the G-GSYS / Ship Integrated Warfare Management System, provision of the necessary training and ongoing maintenance services for the life-span of the system using domestic national resources.
GENESIS Project aims to develop the Command Control Softwares by national opportunities and maintenance of life period of the system with low cost methods.
G-GSYS modernization; nationally developed interlayer and Command-Control application software are going to be performed by usage of mostly national opportunities and with devices and systems which are going to produced in our country by consuming Ready-Made commercial products.
By modernization program; production of G-GSYS hardware, adaptation and modification of the software according to changing necessities, integration and testing of the system, lecturing of required education and maintenance and service support of the system during its life period are going to be accomplished.
By G-GSYS: having used present sensors in G-Class Frigates reconnaissance, surveillance, determination, following and classification processes are going to be performed with full automatic methods at campaign environment; air underwater acquainted and above water tactical picture is going to be composed, evaluation of threats and that of automatic and command committee decision supporting conditions required by the necessities of Naval Forces Commandership are going to be performed in order to capture the tactical superiority at campaign environment; undersea defense battle, air defense battle, above water battle and electronic battle duties are going to be supported by commanding to weapons with the best engagement planning.
Advantages will be gained with new system;
- Modern and Reliable System
- High Performance
- Open Architecture
- Capacity of watching Tactical Contacts more than 1000
- Modern Sensor Data Fusion
- Automatic Threat Evaluation
- Weapon Engagement Opportunities
- Link-16 / 22 System Integration Opportunity
may be counted as summary.
First two ships which is modernized by GENESIS programme has been delivered and third ship is planned to be delivered by the end of 2008.
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Turkish Republic Ministry of National Defense (MoD) Undersecretariat for Defense Industries (SSM) is carrying out a program named MILGEM to meet requirements of Turkish Naval Forces Command (TNFC). ASELSAN and HAVELSAN have been assigned by SSM, as "Combat System Main Contractors" to provide combat system and its integration onboard MILGEM platform. The contract has been signed on 23 May 2007, and first prototype ship will be delivered in 2011.
ASELSAN and HAVELSAN formed a working group which is called ASELSAN HAVELSAN TEAM. Within the project, all sensors and weapons will be integrated to GENESIS based Combat Management System using specific hardware equipped with the latest technologies.
HAVELSAN will be performed in the following activities for the MILGEM Project.
- GENESIS based Combat Management System will be tailored and weapon/sensor integration to the CMS,
- Combat Management System Multifunction Operator Console and Cabinet procurement and integration,
- Ship Data Distribution and Time System design/production and integration,
- Combat System Data and Video Network design/production and integration,
- Message Handling System design/production and integration,
- Ship Information System design and integration,
- Torpedo Countermeasure System procurement and integration
Two G-MSYS / GENESIS - MILGEM Combat Management System will be applied to two Corvettes within this Project. The activities for the development of the "THE NATIONAL COMBAT MANAGEMENT SYSTEM" that is to be applied / loaded on to the following ships is being currently performed.
Within the context of MILGEM Project, HAVELSAN is responsible for the following main sub systems:
Combat Management System
Combat Management System (CMS) is the operational software that provides all facilities for Command and Control, Command Support and Fire Control. Combat Management System (CMS) is composed of C2 Application Software and Middleware which are designed in a proper architecture. CMS architecture is technically characterized by its fault tolerant, distributed and modular and layered structure:
- CMS is strictly modular in the composition and use of its hardware and software system elements and therefore contains a remarkable growth potential and adoption capabilities.
- CMS contains a layered structure above hardware. The layers are strictly separated, allowing a modular approach and a de-coupling of the various functions provided by the software.
- CMS components can be distributed over the computer nodes and can be automatically re-allocated to other computer nodes in case of damage or failure so that fault tolerance, high availability and damage resistance can be satisfied.
Middleware software is used to control the hardware and to provide a framework for the C2 Application Software.
Milgem Ship Data Distribution System (Milgem SDDS)
MILGEM SDDU collects the data (such as location, time, speed, meteorological data etc.) from the sensors all around the ship and distributes them to sensors, weapon systems and the other systems.
Message Handling System
HAVELSAN Message Handling System will be accommodated in MILGEM as a corvette's sub system. The proposed MHS will provide the processing of the ACP 127 formatted messages. The system has capability of message preparing, sending, archiving and print-out. Beside, it has compatible of ACP-127 and STANAG-5066 format coming from data channel. Message Handling System will be working both standalone and integrated to the CMS. In this way, Operators will work faster and within convenience.
Torpedo Countermeasure System
For the MILGEM Project, Torpedo Countermeasure System will be purchased and Integrated by HAVELSAN. Technology transfer from the foreign producer of the system will be about underwater acoustic and signal processing area. In this way, HAVELSAN aim is to join Turkish Navy's possible the underwater acoustic project in the future.
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Mission Planning System (MPS) has been designed and developed so as to make it possible for the Air Force to prepare flight mission plans for fixed and rotary wing aircraft platforms.
In this system, database information is used by means of standard database accessing methodology. New flight routes can be prepared from scratch or ready flight route templates can be used. Capabilities of the Mission Planning System are:
- Preparation and maintenance of mission data and maps database
- Definition of flight course
- Calculation of optimum flight course
- Calculation of attacking tactics
- Analysis of area
- Analysis of threat
- Meteorological analysis
- Formation of vertical profile
- Fuel calculation
- Time calculation
- Calculation of weight, center of gravity and drag
- Having used tactical information, intelligence data and air pictures; usage of tactical symbols and texts to reflect enemy related information on the map
- Battle Planning
- Generation of 3-D view of the selected region
- Preparation of Mission Data File (MDF)
- Transfer of Planned Mission Data (Upload)
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Turkish Armed Forces (TSK) Military Message Handling System makes it possible to securely, confidentially and fast transmission and reception of all kinds of documents which are stored in computers and military messages between the users included the scope of the project.
MEDAS Sub-Systems;
- Military Messaging System (STANAG 4406)
- Open Key Infrastructure (X 509 and S / MIME)
- Directory Index System (ACP 133, X 500 )
All units that are authorized to written official correspondence, in accordance with military standards, can digitally sign and exchange materials, messages, reports, letters, pictures, graphics and all kinds other documents stored at computers. Secrecy degrees including "CONFIDENTIAL" are supported by the Military Message Handling System.
"Digital Sign" service is provided for military messaging service by usage of Open Key Infrastructure System and of Smart Card.
All addresses and certificates within the system are managed and submitted to retrieval of users by Directory Index System.
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Antalya City Security System (Antalya CSS) aids the related branches of Province Security Directorate for monitoring the city in order to detect and react to the crimes and law violations. System is composed of over 100 security cameras throughout the city, 4 Red Light and Speed Violation Systems and 1 Monitoring Center. Wireless and optical fibre communication components employed in the system provide a flexible, fast and robust backbone for the Antalya City Security System that is open to further development and expansions.
Aim of Antalya City Security System is;
- To provide the city security,
- To monitor the traffic flow and density,
- To determine danger in traffic,
- To determine terrorist and illegal activities,
- To record and analysis,
- To provide Analysis/Feedback.
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Designed and manufactured to meet all flight and weapon systems training requirements.
Training Capabilities :
- Initial Training,
- Sensor and Weapon Systems Training,
- Emergency and Procedures Training,
- Mission Refresher Training,
- Mission Rehearsal,
- Mission-Readiness Training,
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Technical features:
- Aerodynamics simulation based on aircraft manufacturer data,
- Flight systems simulation,
- Simulated emergencies,
- Avionics systems simulation/stimulation,
- Mission computer simulation/emulating,
- OFP drop-in or rehosting,
- Sensor systems simulation
- Radar (A-A, A-G, weather),
- Electro-Optics,
- INS/GPS systems,
- Radio & Navigation system,
- Electronic Warfare (EW) system simulation,
- Weapon systems (A-G, A-A) simulation,
- Data transfer simulation (Link-11, Link-16),
- Servers
- Weather
- Radio Navigation
- Terrain
- Geo-specific visual database with high resolution satellite image,
- Tactical environment simulation,
- DIS/HLA Interface Capability,
- Cockpit with real / simulated / stimulated parts,
- Electrical control loading system,
- Off board instructor station,
- Wide FOV display system,
- Multi channel image generator with high poligon capacity,
- Digital I/O system with high frequency rate,
- High fidelity sound simulation,
- Safety and Support Systems,
References:
F-4E / 2020
S-70A-28D Blackhawk
S-70B Seahawk
F-5 / 2000 |
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Full Flight Simulator are designed and manufactured to provide initial, refresher training requirements of the crew members.
Training Capabilities :
- Initial training,
- Emergency and procedures trainings,
- Refresher training,
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Technical Features:
- Aerodynamics simulation based on aircraft manufacturer data,
- Flight systems simulation,
- Simulated emergencies,
- Avionics systems simulation/stimulation,
- Sensor systems simulation
- Radar (Weather),
- INS/GPS system,
- Radio & Navigation system,
- Servers
- Weather
- Radio Navigation
- Terrain
- Geo-specific visual database with high resolution satellite image,
- Cargo drop/external load simulation,
- Cockpit with real /simulated /stimulated parts,
- 6 DOF motion system,
- Electrical control loading system,
- On board instructor station,
- Wide FOV collimated display system,
- Multi channel image generation system,
- High fidelity sound simulation
- Safety and Support Systems,
- FAA/JAA Level C/D Qualification (where required),
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References:
CN-235-100-TK01
CN-235-100M-KR01
S-70A Blackhawk
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Full Mission Simulators are designed and manufactured to provide initial, refresher and mission rehearsal
training of the crew members in a realistic synthetic tactical environment.
Training Capabilities :
- Initial training,
- Emergency and Procedures Trainings,
- Refresher Training,
- Mission Rehearsal,
- Mission-Readiness Training.
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Technical Features:
- Aerodynamics simulation based on aircraft manufacturer data,
- Flight systems simulation,
- Simulated emergencies,
- Avionics systems simulation/stimulation,
- Sensor systems simulation
- Radar (A-A, A-G, weather),
- Sonar, FLIR and EO,
- INS/GPS system,
- Radio ve Navigation system,
- Electronic Warfare (EW) system simulation
- Weapon systems (A-G, A-A) simulation
- Data transfer simulation (Link-11, Link-16)
- Servers
- Weather
- Radio Navigation
- Terrain
- Geo-specific visual database with high resolution satellite image,
- Tactical environment simulation,
- DIS/HLA Interface Capability,
- Cockpit with real/simulated/stimulated parts,
- 6 DOF motion system,
- Electrical control loading system,
- On board instructor station,
- Wide FOV collimated display system,
- Multi channel image generator system,
- High fidelity sound simulation,
- Safety and Infrastructure Systems,
- Optional
- Vibration Platform for Rotary Wing
- FAA/JAA Level C/D Qualification
- NVG compatibility
- Ship landing system simulation for Rotary Wing
- External load simulation for Rotary Wing
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References:
S-70A Blackhawk
S-70B Seahawk
AS-532 Cougar
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Simulator training centers are designed to support all the training requirements of pilots and technical flight
personnel in military aviation integrating a "modern academy concept" in a turn-key basis.
Features:
Simulator Training Centers consists of the following synthetic training aids and sections :
- Full Mission Simulators,
- Partial Mission Simulators,
- Tactical Control Center,
- Computer Based Training Classes,
- Debriefing Rooms,
- Mission/Sensor Operator Trainers,
- Social and Administrative Areas,
- Infrastructure Facilities,
- Storage Rooms,
References:
HELSiM - Turkish Army
HELSiM - Turkish Navy
Turkish Air Force - CN-235 Flight Training Center
ROKAF - CN-235 Flight Training Center
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Tactical Control Center utilizes control and coordination of tactical scenarios such as tactical formation flight,
various operations in high threat/ electronic warfare environment. Synthetic Training Aids and role players can be
integrated with the Tactical Control Center to interoperate with the computer generated red and blue forces.
Tactical Control Center features :
- Tactical scenario generator,
- Doctrines and rules based,
- Computer generated tactical components,
- Role players ,
- Debriefing Rooms,
- Tactical manager,
- High resolution video and sound systems,
- Multi-screen videowall:
- HLA Compatibility,
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Technical Features:
- Flight Management System and (FMS) and Autopilot MCP/FCU option,
- Active schematics,
- Normal and emergency procedure applications,
- Training of cockpit procedures and navigation,
- Highly reconfigurable and customizable,
- Cockpit featuring powerful and fully-interactive, 2D representations of cockpit displays, panels and controls,
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Technical Features:
- Course planning,
- User data survey,
- Personal calendar,
- CBT training planning,
- TCC training planning,
- Training performance analysis,
- Statistical analysis capability,
- Trainee performance archive,
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This Back-End Trainer can interoperate with the Full Mission Simulator to increase the mission-readiness of the
tactical/acustical sensor operators included in the mission-crew of all types of platforms.
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Simulation system for training forward observers and joint call for fire. |
Training Capabilities:
- Creates scenarios with static and moving targets on various terrain views,
- Target determination training of observers,
- Fire request training,
- Target practice and administration training,
- Developing coordination between Forward Observer and Fire Direction Center personel,
- To observe the effects of the all kinds of artillery weapons and combinations of various ammunition,
- Improves observer firing techniques ,
- Real battle conditions with image and sound effects,
Technical Features:
- Simulated Laser Range Finder,
- Simulated binoculars,
- Simulation of shooting calculations and effects of environmental conditions,
- A realtime combat field environment with visual and aural effects,
- Customizable synthetic 3D training terrains,
- High resolution satellite images and 3D models,
References:
Turkish Army
Pakistan Army
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Simulation is created by utilizing Joint Task Force elements to provide analysis and evaluation of the combat environment:
Training Capabilities:
- Agent/Entity based modeling
- Autonomous behaviours (Individual, troop)
- Perception
- Interference
- Damage
- Movement
- Communication
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Functions:
- Analysis and Decision Support Actions
- Military Operation Planning
- Simulation Based Acquisition
- Effectiveness Analysis of Weapon and Sensor Systems
- Doctrine and Tactical Analysis
Technical Features:
- Scenario generation and planning support tools
- Simulation management and control
- 2 and 3 dimensional representative environment visualisation
- Simulation data logging
- To provide reporting and analysing data
- Simulation replay
- Structural Simulation
- HLA-IEEE 1516 compliant
- Digital map usage
- Operational Area Platforms;
- Infantry
- Tank
- Light Armoured Vehicle
- Helicopter (Attack, General Purpose)
- Wheeled Vehicle
- Floating Platform (Boat, Trail Bridge)
- Engineer Vehicle
References:
MGKMOS-I |
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IN CO-OPERATION WITH METU |
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Constructive simulation for joint operation of military troops from a soldier to squad level in detailed
operation scenarios with after action review.
Training Capabilities:
- 2D and 3D visualization
- To enhance instantaneous decision making capability with leader and enlisted man training
- Attack/defense operation
- Trail operation
- Security operation
- Source Analysis
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Technical Features:
- Structural simulation
- HLA compatible
- Digital map
- High resolution satellite photograph application
- High resolution 3D Models
- Digital Terrain Altitude Data
References:
BASKIN
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ILS Services
- Risk Analysis
- Life Cycle Cost Analysis
- Facility analysis
- Maintenance Planning
- Integrated Logistics Support Plans
- Maintenance, continuation and operation capability
- Spare and repair parts
- Upgrade
- Support equipment
- Training
- Packaging, Handling, Storage & Transportation
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Logistic Support and Material Procurement |
- Spare/repair part depot
- Spare inventory computer network
- Replenish spare/repair part inventory for parts used at each site
- Annual inventory review and recommendations for next year spares
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With National Justice Information System (NJIS); Ministry of Justice and related associations, all the justice and support activities which are executed in Supreme Court of Appeals and State Security Courts are being transferred to automation. Information, documents and datas which are within the context of the judgement activities in Turkey will be presented completely and consistently for the use of related personnel in the judgement system in correct time and place; investigations and cases will be brought to conclusion faster and better quality and will support the execution of the decisions in a correct way; and it will become easier to obtain information for the citizens. While the system has been used by 10.000 users in Ministry of Justice before, it started to serve all citizens, more than 40.000 lawyers and 30.000 Ministry of Justice users from 2006.The number of defined users within the system as of the end of 2007 reached a total of 42.000. 97% of all judicial units have now gone live. The number of defined users within the system will reach 50,000 in 2008. The number of files recorded in the system has already exceeded 39,000,000. The number of files opened per day on the system reached 74,542 as of the end of 2007 and the number of entries to the system is 53,778 per day. The number of new documents being added to the system per day is a total of 450,000. Through the portals that have been set up the National Judiciary Network (UYAP) Project serves lawyers and the general public. Work on a new service which gives the general public file information via SMS started in the year 2007 and will be put into service at the beginning of 2008.
With National Justice Information System;
- Information, documents and datas which are within the context of the judgement activities in Turkey
- Completely and consistently
- In correct time and place
- Will be presented for the use of related personnel in the judgement system
- Manner mistakes and physical mistakes in the judgment will be reduced to minimum.
- Operation times will be reduced by making the processes and documents standard.
- Correspondences in the judgement activities will be reduced to minimum.
- It will be provided to execute the decisions in a correct way and conclude of the investigations and cases faster and better quality.
- It will be provided for lawyers to open the files in their offices and pursuit these files.
- It will become easier to get information for the citizens.
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Land Registry and Cadastral Information System (TAKBİS) includes the creation of immovable inventory and managing
them properly in an Information System and the automation of all the activities of General Directorship of Land
Registry.
TAKBİS is composed of Land Registry Application System and Cadastral Application Subsystems. With TAKBİS;
- It will be able to include all immovables into database around the country,
- It will be able to perform the subjects like tax controls, investigation of the property holdings belong
to ownners and institutions, searching of efficiency on investment incentives in a fast, easy and reliable way,
- It will be able to make up the correct inventory of public domains,
- It will be able to bring to a conclusion of the suits for a real property in an easy and reliable way,
The Land Registry and Cadastral Information System (TAKBİS), which aims is to reach 12,000 users entered operation
in the pilot project phase in the years 2002-2003 at the Land Registry and Cadastre Head Office, Çankaya Land Registry
Office (TSM), Gölbaşı Land Registry Office, Çankaya Cadastre Office and the Ankara Regional Office.
In total 270 Land Registry Offices and 32 Cadastre Offices all around Turkey have been integrated in to the system
within the scope of the Land Registry and Cadastre Information System II Project (TAKBİS-II). Within this context,
25 million of real estate, 45 million owner and information on 1.3 million cadastral parcels were transferred to
the TAKBİS medium after digitalization process. Land Registry office staff in these units were provided with onsite
training and operational on-site support. Between 15.000 and 20.000 transactions are being carried out per day by
the system with real time connections provided by the headquarters. TAKBİS II project had been completed on December
2008, carried out final acceptance for software products on December 2008. It is expected that the final acceptance
for wide spreading components till June 2010. The guarantee period related to SW components was ended on December
2009.
The Map Server for Large Scaled Maps, Technical Archive, Moveable Goods Regulations, the follow up of the Real
Estates with Foreign Ownership Monitoring Software that had been developed within the scope of the TAKBIS-II Project
have started to be made to be carried out with the means in the direction of the Management Information Systems functions,
Document Management System and the Document Archiving, General Management and the Regional Management.
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The system which is developed in parallel with the technological improvements for Judicial Register and Statistic General Directorship is being used as online in Judicial Register Headquarters and in judicial courts.
With Judicial Register Information System;
- Accessing the slips of Punishment, Execution and Collateral Decision in General Directorship and in Chief Public Prosecutor Judicial Register Data Processing Offices in the provinces.
- Correction and deletion operations on the datas
- Interrogation of Multi conditional criminal record.
- Transferring data from old system
- Integration with MERNIS to confirm the correction of personal information
- It is possible to make collective and fast interrogations and reporting operations.
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Document Management System (DMS) provides to transfer of the documents in paper environment into electronic environment and to keep them with the all other documents and to manage the whole life circle in a reliable and effective way. In addition to the textbased documents, It is also available to manage the different kinds of documents in an effective way which we can use frequently in our daily business environment like picture, voice and videos.
DMS manages the operations like creating documents, updating, following the changes on them, signing electronically, by using the document guiding module and gives the document of the possibility of current, reliable and consistent accessing. Moreover, it provides an effective record keeping with it's automated registery capabilities to the long term save and different back up medias.
By its modular structure and infrastructure which has been created by using state of the art technologies, it is a highly leveled scalable solution which can integrate other softwares easily.
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In order to effectively and productively manage and execute all resources and activities of Turkish State Railways (TSR); to establish TCDD Resource Management System;
- To integrate all hardware and software system
- To adopt and develop application software
- To integrate existing software and hardware with new systems
- To provide training, documentation and support services
TCDD Resource Management is composed of the followings;
- Management Information System
- Project Management System
- Material and Stock Control Management System
- Vehicle Maintenance Management System
- Infrastructure Management System
- Human Resources Management System
- Finance Resources Management System
- Operational Management Information System
- International Ticket Selling and Reservation System
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Objective of Turkey's Electorate System-SEÇSİS- which is one of the 3 biggest e-government projects is;
- To determine electorate citizens according to suitable laws,
- To prevent repeated act of writing,
- To vote easily and quickly,
- To get election results quickly,
- To minimize the objections,
- To collect required information, prepare lists, keep and update them properly in computer form and use these information and technological possibilities in the elections which will provide to use their political rights in high ratio with the consciousness of citizens' mission and responsibility.
Within the context of Computer Supported Central Elections Registry System-SEÇSİS- developed with Java System which is centrally web based and multiple layers;
- Citizens can learn where they vote by internet from their homes or offices,
- Each Town Board of Election can get Electoral Lists, Voter Information List and other documents from the computer by getting upgrade their own information.
Computer Supported Central Elections Registry System-SEÇSİS- is generalized in 733 towns.
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Turkey Social Security Institution is formed by the union of three institutions which are Retirement Fund
for civil servants, Social Insurance Institution for contractual and agricultural paid workers, Self Employment
Fund for self-employers, agricultural self-employers, housewives, head of villages in 2006.
Aim and target of the decision support system is generating intelligent and consolidated statistical reports that
can not be generated from operation systems because of system load and performance, decreasing the load and cost
of operational systems, delivery of strategic knowledge to senior managers and auditors, gaining the ability to
predict future correctly on time, increasing the efficiency and productivity by the transformation of data to
information, information to knowledge and strategy.
In order to achieve the explained goal, following main tasks in the scope has been implemented;
development of a data warehouse with high data quality and history deepness feeding from the operational
systems of Retirement fund,Self Employment Fund and Social Insurance Institution, generation of intelligent,
fast, multi dimensional, strategic reports with the Business Intelligence Reporting Tool for the senior
managers, auditors and 2000 end users of the Social Security Institution, providing the infrastructure
for self designed reports for the managers and end users, providing the required hardware systems,
software licences and educational services.
GAINS
- First data warehouse - business intelligence project in the e-government scope,
- Gaining the ability to predict future correctly on time,
- Increasing the efficiency and productivity by the transformation of data to information, information to knowledge and strategy,
- Intelligent, fast, multi dimensional, strategic reports for the senior managers, auditors and 2000 end users of the Social Security Institution,
- Integration of Retirement fund,Self Employment Fund and Social Insurance Institution on data and reporting level,
- Improvement of data quality,
- Ability to generate and run self designed reports,
- Infrastructure for data mining,
- Decreased load of operational systems of Retirement fund,Self Employment Fund and Social Insurance Institution.
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