Artificial intelligence and robotics, began to completely change the defense Industry. These technologies will enable smart warfare in the near future. Incorporating them into conventional warfare networks greatly improve the performance of existing platforms and forces.
GMKA Defense makes the necessary strategic changes and investments for our country to reach advanced levels in the fields of artificial intelligence and robotics.
By pairing AI-enabled systems with military personnel for countries that want to have their say, we aim to create a force to highlight the strengths of each, make faster decisions and achieve better results.
Accelerating innovation in both software and hardware is our most important mission.
Given the ever-increasing amounts of data for relevant to our national security interests, we aim to analyze this data accurately, securely and quickly.
Ballistic missile systems hold vital importance in the military activities of countries. A dozen sensors and satellite systems can be used to detect a missile launched by enemy countries, and a dozen systems can be used to destroy such missiles.
With smart automation systems that can be integrated into defense systems, all the data from satellites and sensors is read quickly and the results are presented automatically, allowing the relevant personnel to make an accurate and quick decisions on what action to take.
Smart automation projects require strong cybersecurity.
GMKA Defense Industry takes advantage of the emerging technological opportunities to keep up with artificial intelligence technology and to improve military capabilities. It also considers cyber threats and other security vulnerabilities associated with new technologies.
GMKA plans to participate in creating a secure data network that will drive future models, concepts, algorithms, data sharing, access to elastic computing power and complex testing, and training.
Advances in deep learning, robotics and artificial intelligence will provide new military capabilities to the armed forces, with applications ranging from intelligence, surveillance and reconnaissance to offensive-defense balances and nuclear weapon systems.
How much control do we want machines to have?
In the defense industry in our country, we need to produce software and hardware that enables the creation of new military scenarios in every field, from missile defense to the route of the warship, from the electronic systems of the aircraft to satellite and sensor systems, providing access to all data and processing the data.
We will continue to produce software that meets the requirements of different fields such as robotic hardware systems, sensors, systems using artificial intelligence software, land, sea, air, space and cyber, and develop the necessary training solutions and software prepared for use in military simulations.
GMKA Defense Industry recognizes that the development and use of artificial intelligence and autonomous systems is a national priority for our country.
We have intuitions and emotions that machines do not have. As GMKA, we use this power well.
As GMKA Defense Industry, we develop robotic technology applications that are need-specific within our organization. With the model-based design methods we use in our technology development processes, we can complete the algorithm development, software and testing stages of systems that require advanced engineering, without waiting for production, and take early measures against potential problems and shorten project times.
We design application-specific intelligent robot systems with our artificial intelligence capabilities. During the verification phase, we can perform test scenarios according to the project requirements and present them in detailed reports. We are able to perform error and lifespan analysis of systems with “Autonomous Maintenance” models that we have prepared in order to protect the lifetime of the systems in active operation after production and to avoid potential damages.
IT IS OUR MOST IMPORTANT MISSION TO PROVIDE SOLUTIONS TO YOUR NEEDS USING TECHNOLOGY.
AUTONOMOUS
We consider it beneficial to include the following principles in the “Digital Unity Concept” in future efforts regarding integrated autonomous (robotic) system technologies:
• The potential use of civilian autonomous systems for military purposes (dual use strategy)
• Improving the autonomous capabilities of existing conventional land, air and naval platforms
• Continuing R&D studies on making the battlefield functional areas autonomous
• Initiating organizational, doctrine and concept studies for the use of developed autonomous platform technologies, considering their effects on the battlefield
• Harmonizing the use of autonomous systems with international legal regulations
• Regulating ethical rules in parallel with the development of autonomous systems
• Determining the training needs arising from autonomous systems in advance and ensuring the parallelism of the training technologies that may be needed with the development process of platform technologies
As a result, considering the changing nature of wars and the developments in autonomous (robotic) system technologies, GMKA Defense Industry believes that the gap between states that have these capabilities and those that do not may be widened irreversibly. It considers that artificial intelligence and autonomous system technologies are capable of closing this gap, opening a new page and leading to a paradigm shift in our defense industry.
• Artificial Intelligence (AI): In general terms, it is the process of speech, perception, identification, and decision-making processes are revealed by means of an intelligent computer.
• Autonomous: Self-determining, self-managing.
• Algorithm: A way designed for a purpose or to solve a problem.
HOW DO ARTIFICIAL INTELLIGENCE AUTONOMOUS SYSTEMS WORK?
EXAMPLE ALGORITHM
ARTIFICIAL INTELLIGENCE
Although there is no common definition of artificial intelligence due to its many different application areas, in general terms, artificial intelligence is the process of speech, perception, identification and decision-making processes b means of an intelligent computer.
TOOLS OF ARTIFICIAL INTELLIGENCE
Using artificial intelligence in the defense industry is possible by modeling the systems mathematically and implementing them through various software programs such as MATLAB, PHYTON and C++.
DEFENSE INDUSTRY
• One of the most fundamental duties of social states is to protect national integrity and ensure national security.
• Against all threats and dangers that may come from outside, states create their own defense strategies and develop and produce defense mechanisms accordingly.
WHY ARTIFICIAL INTELLIGENCE INSTEAD OF HUMANS?
AREAS OF DEFENSE INDUSTRY
• Land Operations
• Naval Operations
• Air Operations
• Hybrid Operations
• Hyper Operations (Cyber/Autonomous)
THE USE OF ARTIFICIAL INTELLIGENCE IN THE DEFENSE INDUSTRY
• Land, Sea and Air Power Elements;
– Intelligence
– Logistics
– Personnel
– Operations
– Communication
USES OF ARTIFICIAL INTELLIGENCE IN DEFENSE INDUSTRY
– Autonomous Weapons and Targeting
– Reconnaissance/Surveillance
– Cyber Security
– Land Security
– Logistics
– Autonomous Vehicles
ARTIFICIAL INTELLIGENCE TACTICS IN THE DEFENSE INDUSTRY
Artificial Intelligence can be used on weapons in three ways;
1. Human is an element of the cycle
2. Human supervises and controls the cycle
3. Human is offline
CONCEPT OF USING ARTIFICIAL INTELLIGENCE IN GMKA DEFENSE
GMKA aims to develop algorithms and solutions in the military field with the data it will obtain from operations to combat internal and external threats and to integrate these solutions.
“Robot concept and applications” is a scientific and technological step that will lead to fundamental changes in the basic concepts and application characteristics related to human comfort and safety.
Robotics is the joint study area of mechanical engineering, aerospace engineering, electronic engineering, computer engineering, mechatronics engineering and control engineering.
Robots are complex machines that are managed through software and generate work and value for a useful purpose. Robotics is of great interest in our country as well as in the whole world. In our country, robotics is referred to as mechatronics.
In Robotics, many developing scientific and technological phenomena are integrated and applied on technological products that we call robots.
INDUSTRIAL ROBOTICS
It is an automatically controlled, reprogrammable, multi-purpose, space-fixed or mobile manipulator with three or more programmable axes, used in industrial applications.
CLASSIFICATION OF ROBOTS
CLASSIFICATION OF ROBOTS ACCORDING TO COORDINATE SYSTEMS
• Cartesian Coordinate System
• Cylindrical Coordinate System
• Spherical Coordinate System
• Rotary Coordinate System
CLASSIFICATION BY ROBOT TYPES
• Cartesian Robots
• Articulated Robots
• Scara Robots
SCARA ROBOTS
Scara stands for Selective Compliance Assembly Robotic Arm. In other words, it is a selective compliance (activity fulfillment) assembly robot arm. The Scara type robot is a type of robot with very high speeds, best repetition ability, high precision and accuracy rates.
FEATURES OF SCARA TYPE ROBOT
• Accuracy
• High speed
• Easy assembly
• Precision
• High efficiency
Today, Scara type robots are widely used in numerous fields. These robots are used in the placement of electronic circuit elements on the printed circuit, in the assembly of small electromechanical devices and computer disk drives.
With the use of robots in the electronics industry, mass production has accelerated and quality has increased.
Scara type robots are suitable for use in a variety of industrial sectors such as automotive, white goods, chemicals, glass, furniture, food, electronics, metal, ceramics, paper, electronics, glass, furniture, food, electronics, electronics, metal, ceramics and paper in many production processes such as sorting, placement, transportation, packaging, silicone drawing, drilling, cutting, gluing, quality control, measurement, testing, loading and unloading.
OPERATIONAL ROBOTICS
They work in environments that are not suitable to human habitation. For example radiation environment, underwater, space etc.
The systems are programmable and remotely controlled. Servo DC motor, hydraulic and pneumatic systems can be preferred. It requires high technology. Special approaches are developed according to the desired purposes. For remote management, power transmission systems (hydraulic or pneumatic) or radio frequency are used.
CYBERNETICS
CONSTRUCTIVE ARCHITECTURE (EXTERNAL APPEARANCE AND BODY)
Electronics, materials science, cybernetics and medicine have all been involved, as the aim is to make the system look like living tissue. It also touches on traditional engineering and science categories such as constructive physics, pneumatics, hydraulics and machinery.