This document provides an overview of air defence systems and weapons. It discusses key components of an effective air defence system including radar capabilities, sensors, communication networks, electronic countermeasures, early warning systems, ground-based radars, airborne early warning systems, air defence aircraft, surface-to-air missiles, and command and control systems. The document emphasizes the importance of mobility, emissions control, and integrated systems to maintain detection capabilities against evolving threats while enhancing survivability of assets.
Island Air Defence: Challenges, Novel Surveillance Concepts and Advanced Rada...Ashwin Samales
By Yeo Siew Yam, Yeo Jiunn Wah and Henry Yip
The present-day air defence surveillance system is designed to detect threats originating from external airspace in a conventional military conflict, such as one involving multiple fast-flying fighters, helicopters and missiles. However, the operational environment has evolved to be far more challenging and complex over the past decade, with the emergence of stealthier targets that make better use of terrain to avoid detection. At the same time, there is always a desire to see further than the enemy and to obtain more information about the target. This paper aims to identify the inadequacies of the present-day air defence radar system and to propose some novel sensor solutions which include Ultra High Frequency/ Very High Frequency radar, bi-static/multi-static and passive radar, elevated sensors, High Frequency surface wave radar and non-cooperative target recognition techniques. The advantages, challenges and cost effectiveness of these advanced techniques will be analysed to develop a picture of future surveillance systems.
This document discusses research on micro air vehicles (MAVs), which are small unmanned aerial vehicles. It provides an overview of MAV applications such as reconnaissance, surveillance, and chemical/biological sensing. The document outlines key MAV technologies including flight control, propulsion, communication, and guidance/navigation systems. It also discusses aerodynamic challenges at low Reynolds numbers and potential solutions involving MEMS and adaptive wing shaping. Overall, the document presents MAVs as a promising new class of unmanned system that could provide military utility through a variety of potential reconnaissance and sensing missions.
Global Maritime Aircraft Surveillance Market Reportaviationdefense30
With the development of underwater platforms and weapons, anti-submarine doctrine must be revised. Since a smaller fleet has formerly been in the water, SSBNs, SSNs, and SSGNs operate in shallower littoral seas. They also employ their own UUVs, which complicates the anti-submarine issue even more. Other short-range platforms, such as swimmer deliver vehicles, semi-submersibles, and midget submarines, are dangerous to surface ships that have to operate along the coast or through choke spots. It is necessary to create new methods for locating submarines that can be utilised by both manned and unmanned systems. These methods involve the use of active sonar in conjunction with long-range acoustic surveillance.https://aviationanddefensemarketreports.com/product/global-maritime-aircraft-surveillance-market/
International Journal of Engineering and Science Invention (IJESI)inventionjournals
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online
International Journal of Engineering and Science Invention (IJESI) inventionjournals
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online
This document proposes the development of enhanced radiation weapons systems, including ultrasonic pain field generators, phaser electro-shock wave generators, electromagnetic pulse cannons, and high energy radio frequency weapons systems. It specifically proposes developing a high energy radio frequency (HERF) weapon called the HERF Ranger to disable vehicles during police pursuits by interfering with their electronic systems. The document outlines how the HERF Ranger would work with a police vehicle's computers and databases to determine the correct frequency and power to stop a suspect vehicle based on its make and model. It acknowledges that further testing and development is still needed before the HERF Ranger could be delivered to law enforcement.
Lidar obstacle-warning-and-avoidance-system-for-unmanned-aircraftBrett Johnson
This document summarizes a laser-based Light Detection and Ranging (LIDAR) system called the Laser Obstacle Avoidance Marconi (LOAM) that was developed for obstacle warning and avoidance on manned and unmanned aircraft. LOAM uses eye-safe lasers and beam steering to scan an area around the aircraft's flight path, detecting obstacles with high accuracy in a variety of weather conditions. It was originally developed for military helicopters but this paper discusses adapting it for integration on small-to-medium unmanned aircraft to help navigate low-level flights and avoid obstacles and hazards. The paper describes LOAM's scanning pattern and field of view, how it detects, classifies and warns of obstacles, and focuses on
Defense telemetry market forecast, the increase in defense spending will encourage procurement of anti-submarine warfare systems and related systems to step up their production volumes and improve their quality, thereby enhancing competition in the global markets.
Get the full report here: - https://bit.ly/3cQHn12
Island Air Defence: Challenges, Novel Surveillance Concepts and Advanced Rada...Ashwin Samales
By Yeo Siew Yam, Yeo Jiunn Wah and Henry Yip
The present-day air defence surveillance system is designed to detect threats originating from external airspace in a conventional military conflict, such as one involving multiple fast-flying fighters, helicopters and missiles. However, the operational environment has evolved to be far more challenging and complex over the past decade, with the emergence of stealthier targets that make better use of terrain to avoid detection. At the same time, there is always a desire to see further than the enemy and to obtain more information about the target. This paper aims to identify the inadequacies of the present-day air defence radar system and to propose some novel sensor solutions which include Ultra High Frequency/ Very High Frequency radar, bi-static/multi-static and passive radar, elevated sensors, High Frequency surface wave radar and non-cooperative target recognition techniques. The advantages, challenges and cost effectiveness of these advanced techniques will be analysed to develop a picture of future surveillance systems.
This document discusses research on micro air vehicles (MAVs), which are small unmanned aerial vehicles. It provides an overview of MAV applications such as reconnaissance, surveillance, and chemical/biological sensing. The document outlines key MAV technologies including flight control, propulsion, communication, and guidance/navigation systems. It also discusses aerodynamic challenges at low Reynolds numbers and potential solutions involving MEMS and adaptive wing shaping. Overall, the document presents MAVs as a promising new class of unmanned system that could provide military utility through a variety of potential reconnaissance and sensing missions.
Global Maritime Aircraft Surveillance Market Reportaviationdefense30
With the development of underwater platforms and weapons, anti-submarine doctrine must be revised. Since a smaller fleet has formerly been in the water, SSBNs, SSNs, and SSGNs operate in shallower littoral seas. They also employ their own UUVs, which complicates the anti-submarine issue even more. Other short-range platforms, such as swimmer deliver vehicles, semi-submersibles, and midget submarines, are dangerous to surface ships that have to operate along the coast or through choke spots. It is necessary to create new methods for locating submarines that can be utilised by both manned and unmanned systems. These methods involve the use of active sonar in conjunction with long-range acoustic surveillance.https://aviationanddefensemarketreports.com/product/global-maritime-aircraft-surveillance-market/
International Journal of Engineering and Science Invention (IJESI)inventionjournals
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online
International Journal of Engineering and Science Invention (IJESI) inventionjournals
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online
This document proposes the development of enhanced radiation weapons systems, including ultrasonic pain field generators, phaser electro-shock wave generators, electromagnetic pulse cannons, and high energy radio frequency weapons systems. It specifically proposes developing a high energy radio frequency (HERF) weapon called the HERF Ranger to disable vehicles during police pursuits by interfering with their electronic systems. The document outlines how the HERF Ranger would work with a police vehicle's computers and databases to determine the correct frequency and power to stop a suspect vehicle based on its make and model. It acknowledges that further testing and development is still needed before the HERF Ranger could be delivered to law enforcement.
Lidar obstacle-warning-and-avoidance-system-for-unmanned-aircraftBrett Johnson
This document summarizes a laser-based Light Detection and Ranging (LIDAR) system called the Laser Obstacle Avoidance Marconi (LOAM) that was developed for obstacle warning and avoidance on manned and unmanned aircraft. LOAM uses eye-safe lasers and beam steering to scan an area around the aircraft's flight path, detecting obstacles with high accuracy in a variety of weather conditions. It was originally developed for military helicopters but this paper discusses adapting it for integration on small-to-medium unmanned aircraft to help navigate low-level flights and avoid obstacles and hazards. The paper describes LOAM's scanning pattern and field of view, how it detects, classifies and warns of obstacles, and focuses on
Defense telemetry market forecast, the increase in defense spending will encourage procurement of anti-submarine warfare systems and related systems to step up their production volumes and improve their quality, thereby enhancing competition in the global markets.
Get the full report here: - https://bit.ly/3cQHn12
Aerospace and defence telemetry is the process of gathering, logging, and sending data and measurements in real time from defence systems, aircraft, satellites, and missiles. For the purpose of observing, analysing, and managing these systems while they are in use, this data is essential. The telemetry systems are outfitted with an array of sensors and communication devices to guarantee precise and prompt data collecting and transfer.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and renovating aircraft is crucial to boosting safety and decreasing downtime. There are benefits to modernising the airspace, including increased efficiency, better routing options, and enhanced pilot communication. New components and technology need to be installed in order to successfully interact with air traffic controllers, perform multidimensional aircraft tracking, and improve navigation by creating images of the forward external scene's terrain. When these modernization projects are implemented well, they help reduce carbon emissions, enhance air quality, and save gasoline.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and renovating aircraft is crucial to boosting safety and decreasing downtime. There are benefits to modernising the airspace, including increased efficiency, better routing options, and enhanced pilot communication. New components and technology need to be installed in order to successfully interact with air traffic controllers, perform multidimensional aircraft tracking, and improve navigation by creating images of the forward external scene's terrain. When these modernization projects are implemented well, they help reduce carbon emissions, enhance air quality, and save gasoline.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Control of aircraft from the base station using eog siganl transmissiontheijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Control of aircraft from the base station using eog siganl transmissiontheijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The Future of Singapore’s Ground-Based Air DefenseAshwin Samales
By LTC Ong Tiong Boon, MAJ Joseph Peh and CPT Daxson Yap
Understanding Singapore’s strategic situation leads to a realization that air superiority and the presence of a robust air defense are vital for our survival in war. these imperatives drive our investments in air defense capabilities. to deal with the strategic need for a robust air defense system amidst an expanded spectrum of air threats, the republic of Singapore Air force (rSAf) must undergo a paradigm shift in our Ground-Based Air Defense (GBAD) operations. this article aims to outline the strategic relevance of air defense capabilities, examine the future threat landscape and capability gaps, and identify the challenges in developing a robust GBAD system for Singapore.
Last four/five decades have seen revolutionary development in the field of electronics, computer and automation. Naturally avionics and C.N.S facilities also have adopted these technologies to the best of their advantage. The present paper shows how these technologies have modernized the aircraft cockpit and how C.N.S facilities have been modernised to give smooth and safe flying. The description is based on author’s observation of the development in civil aviation for the last more than four decades and future trends in this field
To improve safety and reduce downtime, aeroplanes must be modernised and restored. Modernising the airspace has advantages such as increased efficiency, better pilot communication, and more routing options. It will take the installation of new components and technology to produce images of the surroundings in the front exterior scene. As a result, multidimensional aircraft surveillance, effective communication with air traffic controllers, and enhanced navigation will all be possible. When these modernization initiatives are carried out properly, fuel savings, better air quality, and a decrease in carbon emissions are achieved.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Aircraft must be updated and renovated in order to improve safety and decrease downtime. Enhancing pilot communication, increasing efficiency, and offering better routing options are some benefits of modernising the airspace. It is necessary to install new technologies and components in order to successfully connect with air traffic controllers, perform multidimensional aircraft tracking, and improve navigation by creating images of the topography of the forward external scene. When properly implemented, these modernization projects help reduce carbon emissions, enhance air quality, and save gasoline.
Read More : https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
For the aim of establishing range safety flight termination criteria and tracking the whereabouts and state of a launch vehicle, telemetry gear is a crucial part of the assets employed in rocketry (the range is meant to serve the public). Among the problems are antenna alignment, energy supply, extreme environmental conditions (heat, acceleration, and vibration), and signal transit times (over great distances, such as in spaceflight). Nearly every contemporary spacecraft, missile, and aircraft is tested with a wireless telemetry system. Aeronautical mobile telemetry serves to safeguard both pilot and ground personnel safety during flight testing. A flight test instrumentation system's telemetry is the primary source of real-time measurement and status data used in crewed and uncrewed aircraft testing.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and renovating aircraft is necessary to increase safety and save downtime. Modernising the airspace has several advantages, including improving pilot communication, boosting productivity, and providing better routing choices. Installing new components and technologies is required to track aircraft in three dimensions, establish a successful connection with air traffic controllers, and enhance navigation by generating photographs of the forward external scene's topography. When these modernization initiatives are carried out correctly, they improve air quality, lower carbon emissions, and save petrol.
https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Enhancing safety and minimising downtime necessitates the modernization and renovation of aircraft. Modernising the airspace has advantages such as improved pilot communication, better routing possibilities, and increased efficiency. To effectively communicate with air traffic controllers, carry out multidimensional aircraft tracking, and enhance navigation by generating images of the landscape in the forward external scene, new parts and technologies must be installed. When these modernization efforts are carried out properly, they save petrol, improve air quality, and lower carbon emissions.
https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Aircraft modernization and restoration are critical to improving safety and reducing downtime. Modernising the airspace includes benefits such as increased pilot communication, better routing options, and greater efficiency. New parts and technology must be installed to enable multidimensional aircraft monitoring, effective communication with air traffic controllers, and improved navigation by generating images of the environment in the forward external scene. When these modernization initiatives are carried out properly, fuel savings, enhanced air quality, and a reduction in carbon emissions are realised.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
To improve safety and reduce downtime, aeroplanes must be modernised and restored. Improving pilot communication, increasing efficiency, and providing more routing options are a few advantages of modernising the airspace. The installation of new components and technologies will be necessary in order to produce images of the surroundings in the front outdoor scene. This will lead to improved navigation, effective communication with air traffic controllers, and multi-dimensional aircraft observation. When these modernization initiatives are carried out appropriately, fuel savings, better air quality, and a decrease in carbon emissions are realised.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Enhancing safety and minimising downtime necessitates the modernization and renovation of aircraft. Modernising the airspace has advantages such as improved pilot communication, better routing possibilities, and increased efficiency. To effectively communicate with air traffic controllers, carry out multidimensional aircraft tracking, and enhance navigation by generating images of the landscape in the forward external scene, new parts and technologies must be installed. When these modernization efforts are carried out properly, they save petrol, improve air quality, and lower carbon emissions.
Open Now : https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and restoring aeroplanes is necessary to increase safety and decrease downtime. Enhancing efficiency, improving pilot communication, and offering additional routing possibilities are some benefits of modernising the airspace. The production of photographs of the surroundings in the front outside scene will require the installation of new parts and technologies. Enhanced navigation, efficient communication with air traffic controllers, and multidimensional aircraft surveillance will all be available as a result. Fuel savings, improved air quality, and a reduction in carbon emissions are realised when these modernization projects are correctly implemented.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and renovating aircraft is crucial to boosting safety and decreasing downtime. There are benefits to modernising the airspace, including increased efficiency, better routing options, and enhanced pilot communication. New components and technology need to be installed in order to successfully interact with air traffic controllers, perform multidimensional aircraft tracking, and improve navigation by creating images of the forward external scene's terrain. When these modernization projects are implemented well, they help reduce carbon emissions, enhance air quality, and save gasoline.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and restoring aircraft is essential to increasing safety and decreasing downtime. Benefits of modernising the airspace include improved routing possibilities, higher efficiency, and improved pilot communication. To generate photographs of the surroundings in the forward external scene, new parts and technology must be installed. This will allow for improved navigation, efficient communication with air traffic controllers, and multidimensional aircraft monitoring. Proper implementation of these modernization projects results in reduced carbon emissions, improved air quality, and fuel savings.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
In the aerospace sector, telemetry systems are used to measure and send meteorological data, such as temperature, humidity, and barometric pressure, to an earth station. In addition, compared to traditional versions, modern telemetry systems are generally more sophisticated, making them more difficult to hack. Further boosting their need is the growing military use of telemetry systems, such as intercepted telemetry in aircraft, unmanned aerial vehicles, guided missiles, marine ships, ground systems, and armoured vehicles.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Short Stories To Write Ideas - Pagspeed. Online assignment writing service.Andrew Parish
This document provides instructions for requesting writing assistance from HelpWriting.net. It outlines a 5-step process: 1) Create an account with a password and email. 2) Complete a 10-minute order form providing instructions, sources, and deadline. 3) Review bids from writers and choose one based on qualifications. 4) Receive the paper and authorize payment if pleased. 5) Request revisions to ensure satisfaction, with a refund option for plagiarized work. The service aims to provide original, high-quality content through a bidding system and revision process.
Jacksonville- Michele Norris Communications And The Media DietAndrew Parish
The document discusses the benefits of the minimum legal driving age. It begins by stating that the minimum legal driving age should not be increased to 18 because that would not help decrease the rate of teen accidents. While some argue accidents caused by teens justify a higher age, the document counters that maturity levels vary and delaying licensure could reduce overall experience and skills. Restricting mobility may also restrict opportunities for work, education and independence. Raising the age could even have unintended consequences of increased risk-taking.
Aerospace and defence telemetry is the process of gathering, logging, and sending data and measurements in real time from defence systems, aircraft, satellites, and missiles. For the purpose of observing, analysing, and managing these systems while they are in use, this data is essential. The telemetry systems are outfitted with an array of sensors and communication devices to guarantee precise and prompt data collecting and transfer.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and renovating aircraft is crucial to boosting safety and decreasing downtime. There are benefits to modernising the airspace, including increased efficiency, better routing options, and enhanced pilot communication. New components and technology need to be installed in order to successfully interact with air traffic controllers, perform multidimensional aircraft tracking, and improve navigation by creating images of the forward external scene's terrain. When these modernization projects are implemented well, they help reduce carbon emissions, enhance air quality, and save gasoline.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and renovating aircraft is crucial to boosting safety and decreasing downtime. There are benefits to modernising the airspace, including increased efficiency, better routing options, and enhanced pilot communication. New components and technology need to be installed in order to successfully interact with air traffic controllers, perform multidimensional aircraft tracking, and improve navigation by creating images of the forward external scene's terrain. When these modernization projects are implemented well, they help reduce carbon emissions, enhance air quality, and save gasoline.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Control of aircraft from the base station using eog siganl transmissiontheijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Control of aircraft from the base station using eog siganl transmissiontheijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The Future of Singapore’s Ground-Based Air DefenseAshwin Samales
By LTC Ong Tiong Boon, MAJ Joseph Peh and CPT Daxson Yap
Understanding Singapore’s strategic situation leads to a realization that air superiority and the presence of a robust air defense are vital for our survival in war. these imperatives drive our investments in air defense capabilities. to deal with the strategic need for a robust air defense system amidst an expanded spectrum of air threats, the republic of Singapore Air force (rSAf) must undergo a paradigm shift in our Ground-Based Air Defense (GBAD) operations. this article aims to outline the strategic relevance of air defense capabilities, examine the future threat landscape and capability gaps, and identify the challenges in developing a robust GBAD system for Singapore.
Last four/five decades have seen revolutionary development in the field of electronics, computer and automation. Naturally avionics and C.N.S facilities also have adopted these technologies to the best of their advantage. The present paper shows how these technologies have modernized the aircraft cockpit and how C.N.S facilities have been modernised to give smooth and safe flying. The description is based on author’s observation of the development in civil aviation for the last more than four decades and future trends in this field
To improve safety and reduce downtime, aeroplanes must be modernised and restored. Modernising the airspace has advantages such as increased efficiency, better pilot communication, and more routing options. It will take the installation of new components and technology to produce images of the surroundings in the front exterior scene. As a result, multidimensional aircraft surveillance, effective communication with air traffic controllers, and enhanced navigation will all be possible. When these modernization initiatives are carried out properly, fuel savings, better air quality, and a decrease in carbon emissions are achieved.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Aircraft must be updated and renovated in order to improve safety and decrease downtime. Enhancing pilot communication, increasing efficiency, and offering better routing options are some benefits of modernising the airspace. It is necessary to install new technologies and components in order to successfully connect with air traffic controllers, perform multidimensional aircraft tracking, and improve navigation by creating images of the topography of the forward external scene. When properly implemented, these modernization projects help reduce carbon emissions, enhance air quality, and save gasoline.
Read More : https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
For the aim of establishing range safety flight termination criteria and tracking the whereabouts and state of a launch vehicle, telemetry gear is a crucial part of the assets employed in rocketry (the range is meant to serve the public). Among the problems are antenna alignment, energy supply, extreme environmental conditions (heat, acceleration, and vibration), and signal transit times (over great distances, such as in spaceflight). Nearly every contemporary spacecraft, missile, and aircraft is tested with a wireless telemetry system. Aeronautical mobile telemetry serves to safeguard both pilot and ground personnel safety during flight testing. A flight test instrumentation system's telemetry is the primary source of real-time measurement and status data used in crewed and uncrewed aircraft testing.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and renovating aircraft is necessary to increase safety and save downtime. Modernising the airspace has several advantages, including improving pilot communication, boosting productivity, and providing better routing choices. Installing new components and technologies is required to track aircraft in three dimensions, establish a successful connection with air traffic controllers, and enhance navigation by generating photographs of the forward external scene's topography. When these modernization initiatives are carried out correctly, they improve air quality, lower carbon emissions, and save petrol.
https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Enhancing safety and minimising downtime necessitates the modernization and renovation of aircraft. Modernising the airspace has advantages such as improved pilot communication, better routing possibilities, and increased efficiency. To effectively communicate with air traffic controllers, carry out multidimensional aircraft tracking, and enhance navigation by generating images of the landscape in the forward external scene, new parts and technologies must be installed. When these modernization efforts are carried out properly, they save petrol, improve air quality, and lower carbon emissions.
https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Aircraft modernization and restoration are critical to improving safety and reducing downtime. Modernising the airspace includes benefits such as increased pilot communication, better routing options, and greater efficiency. New parts and technology must be installed to enable multidimensional aircraft monitoring, effective communication with air traffic controllers, and improved navigation by generating images of the environment in the forward external scene. When these modernization initiatives are carried out properly, fuel savings, enhanced air quality, and a reduction in carbon emissions are realised.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
To improve safety and reduce downtime, aeroplanes must be modernised and restored. Improving pilot communication, increasing efficiency, and providing more routing options are a few advantages of modernising the airspace. The installation of new components and technologies will be necessary in order to produce images of the surroundings in the front outdoor scene. This will lead to improved navigation, effective communication with air traffic controllers, and multi-dimensional aircraft observation. When these modernization initiatives are carried out appropriately, fuel savings, better air quality, and a decrease in carbon emissions are realised.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Enhancing safety and minimising downtime necessitates the modernization and renovation of aircraft. Modernising the airspace has advantages such as improved pilot communication, better routing possibilities, and increased efficiency. To effectively communicate with air traffic controllers, carry out multidimensional aircraft tracking, and enhance navigation by generating images of the landscape in the forward external scene, new parts and technologies must be installed. When these modernization efforts are carried out properly, they save petrol, improve air quality, and lower carbon emissions.
Open Now : https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and restoring aeroplanes is necessary to increase safety and decrease downtime. Enhancing efficiency, improving pilot communication, and offering additional routing possibilities are some benefits of modernising the airspace. The production of photographs of the surroundings in the front outside scene will require the installation of new parts and technologies. Enhanced navigation, efficient communication with air traffic controllers, and multidimensional aircraft surveillance will all be available as a result. Fuel savings, improved air quality, and a reduction in carbon emissions are realised when these modernization projects are correctly implemented.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and renovating aircraft is crucial to boosting safety and decreasing downtime. There are benefits to modernising the airspace, including increased efficiency, better routing options, and enhanced pilot communication. New components and technology need to be installed in order to successfully interact with air traffic controllers, perform multidimensional aircraft tracking, and improve navigation by creating images of the forward external scene's terrain. When these modernization projects are implemented well, they help reduce carbon emissions, enhance air quality, and save gasoline.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Modernising and restoring aircraft is essential to increasing safety and decreasing downtime. Benefits of modernising the airspace include improved routing possibilities, higher efficiency, and improved pilot communication. To generate photographs of the surroundings in the forward external scene, new parts and technology must be installed. This will allow for improved navigation, efficient communication with air traffic controllers, and multidimensional aircraft monitoring. Proper implementation of these modernization projects results in reduced carbon emissions, improved air quality, and fuel savings.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
In the aerospace sector, telemetry systems are used to measure and send meteorological data, such as temperature, humidity, and barometric pressure, to an earth station. In addition, compared to traditional versions, modern telemetry systems are generally more sophisticated, making them more difficult to hack. Further boosting their need is the growing military use of telemetry systems, such as intercepted telemetry in aircraft, unmanned aerial vehicles, guided missiles, marine ships, ground systems, and armoured vehicles.https://aviationanddefensemarketreports.com/product/global-defense-telemetry-market/
Short Stories To Write Ideas - Pagspeed. Online assignment writing service.Andrew Parish
This document provides instructions for requesting writing assistance from HelpWriting.net. It outlines a 5-step process: 1) Create an account with a password and email. 2) Complete a 10-minute order form providing instructions, sources, and deadline. 3) Review bids from writers and choose one based on qualifications. 4) Receive the paper and authorize payment if pleased. 5) Request revisions to ensure satisfaction, with a refund option for plagiarized work. The service aims to provide original, high-quality content through a bidding system and revision process.
Jacksonville- Michele Norris Communications And The Media DietAndrew Parish
The document discusses the benefits of the minimum legal driving age. It begins by stating that the minimum legal driving age should not be increased to 18 because that would not help decrease the rate of teen accidents. While some argue accidents caused by teens justify a higher age, the document counters that maturity levels vary and delaying licensure could reduce overall experience and skills. Restricting mobility may also restrict opportunities for work, education and independence. Raising the age could even have unintended consequences of increased risk-taking.
020 Rubrics For Essay Example Writing High School English ThatsnotusAndrew Parish
The document provides instructions for requesting writing assistance from the website HelpWriting.net. It outlines a 5-step process: 1) Create an account with a password and email. 2) Complete a 10-minute order form with instructions, sources, and deadline. 3) Review bids from writers and choose one. 4) Receive the paper and ensure it meets expectations before authorizing payment. 5) Request revisions until satisfied with the work. The website promises original, high-quality content and refunds for plagiarized work.
Case Study Sample Paper. A Sample Of Case Study AnaAndrew Parish
This document discusses the tension between liberty and social order that governments face. It notes that while the US strongly values individual freedoms as outlined in the Declaration of Independence, maintaining security and social order can be challenging. The paper will examine problems that the US and other nations encounter in balancing civil liberties with the need for social control and stability.
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Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
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A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
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Air Defence Systems And Weapons
1. AIR WAR COLLEGE
AIR DEFENCE SYSTEMS AND WEAPONS
ITI
^ELECT
COLONEL MOHAMED A. AL-RABI
ROYAL SAUDI AIR FORCE
/u t I
AIR UNIVERSITY
UNITED STATES AIR FORCE ULME
MAXWELL AIR FORCE BASE, ALABAMA
2. AIR WAR COLLEGE
AIR UNIVERSITY
AIR DEFENCE SYSTEMS AND WEAPONS
BY
MOHAMED A. AL-RABI, COLONEL, RSAF
A DEFENCE ANALYTICAL STUDY
SUBMITTED TO THE FACULTY
IN
FULFILLMENT OF THE CURRICULUM REQUIREMENT
ADVISOR: GROUP CAPTAIN JOHN SPENCER, RAF ADVISOR
MAXWELL AIR FORCE BASE, ALABAMA
MAY 1990
3. DISCLAIMER
This study represents the views of the author and does not
necessarily reflect the official opinion of the Air War College
or the Department of the Air Force. In accordance with Air
Force Regulations 110-8, it is not copyrighted but is the
property of the United States government.
Loan copies of this document may be obtained through the
interlibrary loan desk of Air University Library, Maxwell Air
Force Base, Alabama 36112-5564 (telephone [205] 293-7223 or
AUTOVON 875-7223).
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4. BIOGRAPHICAL SKETCH
Colonel Mohamed Al Rabi is a member of the Royal Saudi Air
Force. He was born in Al Jouf, Saudi Arabia in 1944. After
completing high school in 1963, he joined the RSAF and attended
the King Abdulaziz Military College. In 1965 was selected for
training in the United Kingdom (UK) as a Weapon Controller and
Air Traffic Controller (ATC). Was commissioned as a 2Lt in
1966. In 1969 had advance training in Ground Controlled
Interception (GCI) in the UK. In 1970 had advance training on
Air Defence in Pakistan. Colonel Mohamed attended SOS in 1978,
ACSC in 1982, and AWC in 1990, all were at Maxwell Air Force
Base, Alabama. Colonel Mohamed has served as a senior Air
Traffic Controller (SATCO) 1969 - 1971, at the Royal Saudi Air
Force Headquarters, 1972 - 1975; Sector Operation Center
Commander (SOC), 1976 - 1986; ACSC Instructor, 1987; the
Technical Studies Institute Commander, 1988. Colonel Mohamed is
married and has eight children. He likes swimming, open water
diving, logging, and playing soccer.
ii
5. TABLE OF CONTENT
CHAPTER PAGE
DISCLAIMER i
BIOGRAPHICAL SKETCH ii
I INTRODUCTION 1
II 1 - RADAR CAPABILITY 4
2 - NEW SENSORS 6
3 - COMMUNICATION NETWORK 7
4 - ELECTRONIC COUNTER MEASURES 11
5 - EARLY WARNING SYSTEM 12
6 - GROUND BASED RADAR 12
7 - OVER THE HORIZON (OTHR) 16
8 - HIGH FREQUENCY SURFACE WAVE RADAR 17
9 - GROUND RADAR'S VULNERABILITY 17
10 - AIRBORNE EARLY WARNING (AEW) 13
11 - (AWE) VULNERABILITY 18
III 1 - AIR DEFENCE AIRCRAFT 20
2 - AGILITY AND SPEED 22
3 - AVIONICS, RADAR, AND MISSILES 23
IV 1 - SURFACE TO AIR MISSILES (SAM) 27
V 1 - COMMAND AND CONTROL AND COMMINUCATIONS 26
AND INTELLIGENCE (C31)
2 - INFORMATION DECISIONS 31
3 - ORGANIZATIONAL DICISIONS 34
4 - OPERATIONAL DECISIONS 36
5 - COMMUNICATIONS 38
iii
6. 6 - COMPUTERS 39
IV 1 - CONCLUSIONS 42
LIST OF REFERENCES 44
iv
7. AIR DEFENCE SYSTEM AND WEAPONS
CHAPTER I
1 - INTRODUCTION
Defence of a national air space is fundamental to every nations
security, and at first sight, appears to require little more
than the ability to accurately place intercepting fighter
aircraft in a sufficient quantities to deal with aggressions.
To achieve effectiveness in defence of air space however,
requires far more in the way of resources than just fighter
aircraft, surface-to-air missiles and other weapon systems.
While it is certainly obvious that sensors such as radar systems
are required to give adequate warning of attackers approaches.
It is not always so readily apparent that these sensors and the
associated weapon systems are interconnected to from a
comprehensive system in order to attain a properly coordinated
defensive entity. A chain of radar stations to is be positioned
in a selected area to provide early warning of impending raids
at maximum range and provide required information such as
strength, heading, altitude, speed, and if possible, the
aircraft types. The fighter controllers assess threats and
dispatch defending aircraft to meet the target. The status of
the defending squadrons is shown on the board, a key part of the
system is the communication network. The basic concepts of an
air defence system are to detect, locate, and identify intruders
into the defended air space, a means of allocating defence
1
8. resources to the best effect and methods to control these
defending forces.
Many air defence systems are also linked to civil air traffic
control nets, so that civil and military aircraft can be shown
on a uommoi display. It is increasingly likely that a nation
updating its air defense system will integrate it with the civil
ATC system from the outset, so that the system can operate in
parallel. Modern radars are usually mobile in nature, if the
sight is permanent then it will certainly be hardened against
air attack although -he static site is exceptionally vulnerable
and prudence dictates that permanently sited systems are
supplemented with sufficient mobiles to take their place in the
event of loss or damage. Static sites are susceptible because
their location can be accurately pinpointed by electronic means
long before hostilities commence. For tactical and geographical
reasons, some degree of mobility would seem to be almost
essential. During wartime conditions, the movement of at least
some components in a chain will provide protection, and in the
event of losses of radar assets, the ability to rapidly redeploy
those still existing may prove to be the only means of restoring
adequate coverage. Also, changes in the nature of the threat
would make mobility a desirable feature. Political and
strategic considerations may bring out a requirement for radars
to cover totally different sectors within the space of a decade
or two. And weapons themselves, reflecting technological
advances, vary in their characteristics within similar periods
2
9. of time. Some twenty years ago the major threats were
represented by ballistic missiles and manned aircraft, the
latter mainly being operated at high altitudes. Now it is
possible that at a low altitude, submarines or low level stealth
aircraft launched cruise missile may represent the threat so
that a nation previously vulnerable to over land attack may have
to redeploy its defensive sensors to look seawards as well.
Technological changes to and new modes of operation of weapon
systems have demanded that similar progress be made in radar
systems. Radars of 1960s and 70s vintage are no longer suited
to todays threats such as the low flying attackers often
operating beneath the terrain mask and possessing electronic
counter measures designed specifically to defeat the means of
detection.
3
10. CHAPTER II
I - RADAR CAPABILITY
An aircraft operating within the ground clutter presents a far
smaller target than the clutter itself. And although fixed
clutter can be electronically removed through the use of
techniques such as moving target indicator, temporary returns
caused by heavy rain or by electronic counter-measures chaff are
not so readily cancelled. Low altitude radars may also be
affected by the echoes of surface vehicles, and so a combination
of circumstances may result in a radar in a particular sector
being over overwhelmed by signal returns which swamps the
system.
A shrewd attacker can be expected to take all possible
advantages of both natural and artificially created clutter.
And the radars and their operators must be able to counter his
actions. Advanced computer control of radar systems and signal
processing now make use of range gated pulse doppler techniques,
combined with wave form modification to track beams, which
permits targets to be filtered out from their clutter
environment.
Other techniques such as "burn-through" or the concentration of
transmitted power on a specific sector, enhance a radar's
performance against deliberate jamming or improve range in the
sector. Sidelobe emission control can also improve jamming
resistance, since to be at its most effective a jammer must be
4
11. either within the main beam of a radar or within one of the main
sidelobes. The use of electronically scanned antenna producing
pencil beams rather than larger fan like beam spreads, likewise,
improves jamming resistance. To protect the radars from attack
due to their own radiation, may well prove a problem. Again,
radar technology and todays anti-radiation missiles (ARM) would
seem to pose an almost irresistible threat. Mobility of the
system themselves is a useful first line of defence against the
ARM through the denial of immediate targetting knowledge to a
would be attacker. But mobility in it self is not sufficient in
the longer term. The use of the lowest possible emitted power
and ge, '.etrically thin beams, combined with low level sidelabe
emissions provides additional protection.
Techniques such as variable emission strength or zero emission
over certain sectors can also assist, together with the use of
frequency agility, to make the capture of signals by an
approaching ARM that much more difficult. Also, because an ARM
will often depend on the arrival of an uninterrupted regular
pulse stream from its target in order to provide guidance, pulse
jitter and modification of pulse repetition frequency may also
provide further means of defence. All of these emission-control
techniques will provide varying degrees of protection. Another
means of reducing vulnerability is the placement of strategical-
ly-sited decoy emitters within the area of the radar. By use of
random transmissions, hostile electronic support measures can be
denied their initial targeting of data and incoming missiles
5
12. can be either confused or decoyed away from the radar proper by
temporary shutdown of its transmission.
The use of shutdown and strict emission control is of course the
ultimate protective measure, but it is not always practical.
Its use should be as sparing as possible and other detection
methods are be'ng increasingly studied. In the forefront of
these are electronic support measures which depend upon radar
and radio transmissions of the hostile themselves to pre".de
warning of approach. Here, however, the principles of emission
control on the enemy's part will apply, and intelligent enemy
will maintain radar or radio silence to the highest possible
degree.
2 - NEW SENSORS
Durina the second World War, acoustic methods were tried as a
means of detecting and locating approaching enemy aircraft, but
these were not found to be very effective. Improved electronic
processing has brought about some resurgence of these techniques
which, over short range, may be effective only against slow-
flying targets. In the day of the supersonic aircraft, to
attempt to acoustically detect an enemy is a profitless
exercise. Infrared detection methods, however, show signs of
promise for short range defence. Aircraft engines produce
appreciable thermal signature which can be detected, depending
on prevailing atmospheric conditions. Incoming missiles,
although the heat of their exhaust effluxes may be facing away
6
13. from the detection system, still provide a detectable signature
due to kinetic heating of their bodies caused by their passage
through the air.
3 - COMMUNICATION NETWORK
The communications net that ties together the sensors and the
control centers is now days far more complicated than the simple
voice network of the past. In the majority of cases, radar
information is passed directly to the points of command and
control in digitized form for direct processing and display on
commander's and battle staff screens. New communications
techniques are employed extensively, and transmissions are
likely to be packet-switched rather than message switched.
Using packet-switching, data is routed in discrete quantities on
packets of specified format and of cert in maximum size. Each
packet comprises a header section containing the network address
of the required destination, a data portion containing the
information itself and a tail which contains checking and
verification data.
The splitting of data into packages permits each of these to be
independently routed over the network and packages may be sent
via completely differing routes prior to re-assembly at the
destination terminal. This makes the most effective use of the
network and ensures the minimum delay in the transmission.
Equally important in military terms, the existence of a package
switched type of net automatically provides a degree of
7
14. redundancy inherent in the system. Thus, there is an
availability of alternative routes and should any link be lost,
the system will continue to function, albeit at slightly reduced
efficiency. The data networks are still backed by speech
networks to allow voice conference between commanders and sensor
sites. These act as a final fallback in the case of major
emergency situations or to raise queries on the rare occasions
when they cannot be readily resolved by data transmissions.
While conventional landlines are still used for the network, it
is becoming increasingly common for these to be substituted or
supplemented by radio links which are not so vulnerable to
hostile action. Sensibly, most networks use a mixture of at
least triplicated landlines and radios communications facilities
to provide the maximum redundancy and alternative routing
availability for enhanced system survivability.
The use of data transmission is mainly due to the influence of
the computer. Direct digital input of the vast amounts of data
provided by modern sensors systems raises their effectiveness by
orders of magnitude, and automation is an essential element of
present day command and control techniques in the air defence
context since no human commander could expect to filter, process
and, appreciate the data quantities involved. Much of the data
received, while of essential import to the system functions, is
of a routine nature and does not necessarily need to be
assimilated by the minds of the human controllers.
Computers enable this information to be processed and stoned,
15. and if required, displayed. But computers have the ability to
automatically prioritize and to sift the data so that the
relevant elements are presented for immediate attention.
It must be stressed however, that this dose not imply that the
entire task is automatic. By letting the machines take care of
the more mundane roles, the commander is free to concentrate on
the more crucial decisions without concerning himself too much
with the routine elements of control. Although systems are
designed so that human controllers can interven, t all stages
if necessary, such is the complexity of a present generation air
defence system that it is almost unthinkable that manual methods
would have the required speed of reaction to deal with today's
fast moving scenarios adequately. Computer assistance is thus
essential. Communications with airfields, antiaircraft gun
batteries, and surface-to-air missile-sites, like those between
the sensors and commander centers must also be duplicated or
triplicated to ensure survival of circuits and may well employ
radio as well as landline links. Likewise, communications are
equally well likely to be based on data transmission techniques
as the mainstay of information transmission, although speech
backup still remains. While communications with aircraft are of
necessity, radio based and still mainly voice reliant, there is
an increasing tendency for data transmission to be used for air
ground air links, and the information transmission and
distribution system of the 1990s and beyond will become more
data dominate. The pilot of tomorrow will receive fewer
9
16. instructions by ear, it is more likely that targets will be
indicated to him on a cockpit display complete with skirting
vectors and missile launch data already precalculated and
clearly presented with the minimum of voice instruction from the
ground controllers. Voice transmissions will never be
completely dispensed with for many reasons. Not only does it
provide a fallback position for those occasions on which
automated methods will not suffice in the event of system
malfunction for example, but it also remains as the staple
method of resolving problems over ambiguities with which
automated means of information implementation cannot readily
cope. It is impossible though, that speech, will be
intelligible to unauthorized recipients, even if these should
exist. Secure speech transmission will be assured through use
of frequency-hopped transmission which are digitally encoded.
Such changes in C3 technology symbolize how air defence networks
have progressed, but there is a strong possibility that they
will change to an even greater extent in the future. Ground
based radars with their limited lines of sight are being
supplemented (superseded) by airborne early warning systems
which can extend the eyes of sensor networks to a degree
unimaginable in the days of HF band radars. How much more could
they be extended by the placement of radars and other sensors in
spaceborne platforms? And it is possible that control of
aircraft flying comparatively close to the earth's surface could
be exercised more effectively from space itself. These
10
17. considerations for the defence of sovereign air space and
perhaps the void above this must be taken into account in the
evolution of the next generation of air defense systems.
4 - ELECTRONIC COUNTER MEASURES
A major disadvantage of any radar, be it airborne, ship-based,
or firmly on the ground, is the fact that any potential enemy
can tune in to the transmitted emission, analyze it and then
devise a way, either to confuse the receiver or blot out the
signal altogether with high power electronic noise on the same
frequency.
Two fundamental points must be stated however, their is no such
thing as unjammable radar, and for every measure taken to
improve a system, a counter will eventually be produced. ECM is
a living science where changes can happen with bewildering speed
and where the brightest of scientists live and work at the edge
of advancing technology. Advances in electronics and
particularly in applied computer techniques have meant a
revolution in the approach to radar signal processing and the
constant battle to out think the opposition. Suffice it to say
that ECM is a big threat to the radar operator. Self-screening
jamming pods are common place in modern aircraft inventories and
specialist stand of ECM aircraft are the norm for any country
contemplating a massed raid on defended territory.
However, the advent of very high powered processors has meant
that techniques, like frequency hopping, very narrow beam
11
18. widths, bi-static and multi-static radars, phased array and
three-dimensional radars, have all become available to the
planner in his attempts to remain one step ahead of the enemy.
5 - EARLY WARNING SYSTEM
Success in any air defence engagement depends, to a large
extent, on the ability to detect an attacker as soon as
possible. The defender must become aware of an impending attack
in sufficient time to be able to alert his own forces, of
whatever sort, in an attempt to neutralize the effects of
surprise and to try to prevent the enemy concentrating his
attack in time and space. Early warning is the generic phase
that encompasses all the means of doing this. Early warning can
be split into two distinct categories: ground based systems and
airborne early warning. Of these two, the more diverse by far
are the many detection systems that can be built at ground
level.
6 - GROUND BASED WARNING SYSTEMS
Under normal circumstances, radar transmissions can be seen as
analogous to light waves. They are sent out from the radar head
and bounce back from any object in their path just as light
waves would from a polished surface. Equally just like light,
radar waves can be deflected, defused, or absorbed. The
detected object having physical properties of its own which lead
to a measurable level of radar reflexivity. This is usually
12
19. called the radar cross-section. It is measured in square meters
and is a useful means of comparing the likelihood of detection
by radar of various air vehicles. At extremes of the scale an
aircraft like a Boeing B-52 or a Tupulov "Bear" will have a very
large radar cross-section where as a cruise missile or a carbon
fibre drone will have a very small one. Another factor which
affects radar reflectivity is aspect - the physical dimensions
of a target which are presented to the radar. Take for instance
an aircraft flying directly towards a radar head, the aspect
presented to the radar will be fairly small. The leading edge
of the wings, the cross-section of the fuselage, the engine
nacelles, and the leading edge of the tail are probably all that
will be seen. If the aircraft now turns through 90 degrees the
radar can see the whole length of the fuselage, the slab section
of the tail and the length, rather than the front of any under
slung stores. Obviously, the second case will present a larger
radar image to the receiver simply because there is more of the
target for the radar waves to hit and reflect back. This is of
course, a tremendous simplification. All sorts of things affect
radar reflectivity: smooth or rough surfaces, angular
constructions in the aircraft frame (known as corner
reflectors), the type of paint used, reflections from the engine
turbine blades or propellers, and such relatively small items as
weapons carriage rails or missile pylons. By and large,
however, it is the size and aspect of the target which makes the
most impact.
13
20. There are also, as you would expect, a number of factors which
affect operational efficiency of the radar system itself. To
begin with, again just like light waves, radar transmissions at
sea level cannot see beyond the horizon - the line of sight
limit caused by the curvature of the earth. There are technical
means of overcoming this. In this case, the only way to extend
the horizon is to elevate the radar head. (Imagine you are
standing on a beach looking out at the sea. As a ship steams
away from you it will gradually disappear over the horizon. If
you now race up to the top of a 100-foot high cliff and look
again, the ship will one again be visible until, as before, it
passes out of your line of sight. You can repeat this process
climbing ever steeper cliffs until you are in effect, at heights
normally associated with aircraft).
But there are self-evident physical constraints to the amount
you can elevate a radar head. obviously you will chose the
highest point you can on which to site it, depending on the
direction from which you think the threat will come. Equally,
you can raise the radar aerial on a tower or plinth but the
sheer size and weight of the system places severe limits on that
process.
Size, in fact, is a major limitation for ground based radars.
In general terms, the greater the power output and the larger
the radar dish, the longer the range. Power obviously affects
the strength of the outgoing radar a pulse (of electrical energy
at a predetermined wavelength) and the size of the radar dish
14
21. affects the amount of any returning reflections that can be
collected. (Of course the bigger the radar dish is any small
wind may knock it over, if they are heavy, cumbersome devices
and because they are made to rotate or sway backwards and
forwards, they need strong mounts and heavy-duty motors to drive
them).
Long heavy rotating radars cannot be raised on very tall towers
and are therefore very limited by the horizon in their low level
cover. Of course if very high level cover is required, huge
dishes can be used, pointing in fairly specific sectors, but it
needs protection from wind and from heavy precipitation.
Another problem for ground based radars is mechanical
reliability. This applies to any system, no matter how small or
sophisticated, but for a large rotating scanner exposed to the
elements, the problems are considerable. Motors that turn the
head must be very powerful and operate within reasonably precise
tolerances. Components such as bearings and turn tables must be
both very strong and very durable. Environmental stresses can
play havoc with concrete and steel structures and the effects of
corrosion can be horrendous. So radars like these are bound to
attract a large maintenance and man power bill although, on the
other hand, they are relatively low-tech systems that can be
understood and managed fairly easily. Primarily for that
reason, many of the air defence radars built worldwide in the
1950s and 1960s are still operating today. But many have been
replaced by 3D radars, etc.
15
22. 7 - OVER THE HORIZON (OTHR)
Over the Horizon Radar (OTHR) uses the ionosphere as a mirror in
the sky to bounce the transmitted radar signal off the upper
atmosphere and to use the same path for the scattered signal
that returns.
But OTHR is not without its problems. For a start it has no
close in capability, it is designed to detect targets
1000-4000km from the site. This is fine for giving genuine
early warning of activity and to help build up a picture of
potential raid but it is too far away for an attempt at detailed
control of the air battle. Equally, the gap between the
800-1000km minimum range and the point to be defended means that
it has to be backed up by another system. There are problems,
too, with propagation conditions. The degree to which radar
waves are reflected is a function of the state of the
ionosphere.
There are some influences like the day/night cycle, sun spot
activity seasonal variations and high level winds which can all
affect the performance of an OTHR system. Very complex
processing is needed to unravel the faint returns and to ensure
that erroneous multi-path responses are filtered out. But it
can be done and the rewards and benefits are considerable; it
covers huge tracks of land or sea there are no moving parts and
maintenance is relatively easy it is not as susceptible to
environmental factors as some other radars, and the cost of
installation and operation is relatively cheap.
16
23. 8 - HIGH FREQUENCY SURFACE WAVE RADAR
Another radar system designed to defeat the effects of the
horizon is the high frequency surface wave radar (HFSWR). In
this case a vertically polarized radar signal is transmitted at
high power across a sea surface by using frequencies in the HF
band. This surface wave can be made to stick to the curvature
of the earth for ranges up to about 100N.M. The use of this
phenomenon is somewhat limited by the fact that it works only
over salt water, but it can produce good detection and tracking
information to supplement other systems. It needs large
transmit and receive sites and uses similar aerial arrays and
processing techniques as sky wave radars.
9 - GROUND RADARS VULNERABILITY
Broadly, the dangers fall into three categories: vulnerability
to ground attack; attack by aircraft, and vulnerability to ECM.
Under normal circumstances, the position of an air defence radar
is common knowledge to friends and foe alike. They are by
definition, great big electronic beacon telling any one capable
of interrogating the signal exactly where they are and what they
do. If therefore, they are large fixed installations,
vulnerability to attack is much greater. If, on the other hand,
they are mobile sites that can be relocated to pre-prepared
sites in time of war, particularly if you have enough of them to
be able to switch transmissions from one site to another at the
right moment, the vulnerability is much reduced.
17
24. 10 - AIRBORNE EARLY WARNING (AEW)
Taking a radar set into the sky is not a new idea. (Almost as
soon as the idea was operational on the ground in 1938, the
scientists were trying to pierce the cover of the night and poor
visibility by some means). The first production Boeing E-3A
Airborne Warning and Control System (AWACS) was delivered to the
UASF in March 1977 (and since then it has overcome most, if not
all, of its inherent problems). Because of the size of the
basic Boeing 707 air frame and its powerful engines, the radar
and computer needs have been accommodated as have the
requirements of the crew. Sufficient space is available to
include the control aspect of the air defence battle so the
aircraft comes much closer to a ground based radar in the sky.
Using the most modern techniques, the radar can detect low
flying targets over both land and sea and provide accurate
tracking data on many targets simultaneously. But AWACS is
reckoned to be very expensive and only a few nations can afford
to operate a reasonably sized fleet of them.
11 - AEW VULNERABILITY
The big difficulty with AEW of any size, is that it requires a
considerable amount of infrastructure, particularly in the form
of avionics support. Good ground protection for some distance
around a base is usually possible and ground-to-air weapons can
be deployed to negate the airborne attacker. Once the AEW is
airborne, the factors affecting vulnerability changes
18
25. dramatically. NOW we are in the realms of single type of
threat-attack by another aircraft. Unless the AEW is put at
exceptional risk by deliberately flying over or close to enemy
held territory, and thus becoming a target for long range SAMs
such as AS-5 or perhaps from an unmarked missile-armed ship,
the only way to shot it down is to reach it with fighters.
19
26. CHAPTER III
1 - AIR DEFENCE AIRCRAFT
It is appropriate to consider the main "arm" of air defence, the
AD fighter. The characteristics required of an AD fighter
designed specifically for the air defence role maybe some what
different to those of the more traditional "dog fighter." (The
geographical disposition of the defending nation may determine
the type of AD fighter such as, long range air defence patrols
or and air defence interceptor and an air superiority fighters
can be one of the same time, or you may have the need to combine
weapons carrying capability powerful Al radars, good all-round
performance and a long range tends to produce either a mix of
fighter types or an emphases on the intercepter characteristics,
such as range and loiter capability, quick reaction, agility,
speed, avionics and radar and weapons systems). It is clear
that for the air defence role, a fighter with good range is
essential, it is obvious that defender needs to make the
intercept as far away from the area to be defended as possible.
Furthermore, it may well be necessary to chase the enemy for
some distance either when he is inbound or outbound when trying
to escape. In either case, the fighter may have to cover many
miles on the pursuit. In a case of a Combat Air Patrol (CAP) it
is important to remember that a CAP can be positioned anywhere
from overhead to several hundred miles "up threat."
It is primarily the inherent range of an AD fighter that
20
27. enables the defending planner to use the forward CAP option.
The range and loiter time have a major impact on the design of a
typical interceptor. It needs to be able to fly long distances
without refueling at a reasonable speed so that it does not take
too long to reach its patrol point. When it arrives, it needs
to be able to throttle back to save fuel and maintain a suitable
altitude to give it a fair chance of detecting the incoming
attackers and starting the ensuing engagement with some
advantage. Experience has shown that this altitude is about
15,000 - 20,000 ft., so the interceptor needs a combination of
engines and wings that can produce good lift at such a height
for low thrust output. Some designers have met this challenge
by using variable geometry as with the Grumman F-14 and the
Panavia Tornado F-3. Here the wings are partly swept back for
cruise flight but are brought fully forward for the loiter
phase. Other designs have used the delta wing such as the
MIG-21 and the Mirage-2000. Other designs have concentrated on
the all-round wing which combines swept wing characteristics
with the advantages of the delta wing aircraft like the McDonald
Douglas F-15. (Endurance, range, and speed tend to be closer
together but the lift factor is so high that relatively low
throttle settings from high power engines can be used. As with
every other aspect of the air defence business, there is usually
a compromise solution).
Another important factor is quick reaction, in any AD system the
need for a quick reaction capability from ground alert is very
21
28. important, specially if the warning time is very limited (and
the ADGE system must be absolutely fool proof). Here, even a
few seconds may make the difference between a successful
intercept and a damaging blow. Fighters on ground alert must be
able to scramble instantly, climb very quickly, sprint at very
high speed to the intercept point, then engage the enemy
immediately. They are in effect, manned long range
multi-purpose missiles. With the pilot or crew already in the
cockpit, it should take less than 60 seconds to start the
engines and take off. Special alert pads can be built at the
end of the runways with protection for the aircraft and crews.
Engine systems can be designed for extra rapid starting and any
ground safety devices, armament pins, and access panels for
ground equipment must be kept to the minimum and be capable of
fast removal.
2 - AGILITY AND SPEED
All fighter interceptors need to be agile. Agility will be the
dominate factor to be able to destroy attacking aircraft which
they may well be agile themselves such the F-18 and the F-16
class and therefore very agile indeed. The same is true for
speed capability, very high speeds in the order of Mach 2 plus
can give the interceptor some advantages, but only in a fairly
narrow segment of the total combat arena. Most engagements are
going to take place well below Mach 1.5 because few laden attack
aircraft will be capable of speeds any greater than this. The
22
29. exception to that are very fast (Mach 2.5 plus) reconnaissance
USAF TR-l and the SR-71. Another possibility is for the newer
generation of large bombers, the USSR's TU-22m and TU-160 and
the USAF Rockwell B-lB, B-2, and F-17, all of which should
possess a Mach 2 plus capability at altitude and may combine
this, eventually, with the ability to launch stand-off missiles
at that speed.
3 - AVIONICS, RADAR, AND MISSILES
What makes the AD Fighter so special and maybe superior too? Is
it the type of electronic systems and missiles it carries? The
electronic systems that provide information to the crew,
include the Al radar, the weapons aiming and control system and
the HUD flight information and night navigation equipment. The
radar of an AD interceptor is the eyes that enables this brand
of combat aircraft to operate at night and in poor weather. (AD
fighters listed as night, all weather (NAWX) fighters in fact as
technical advantages in electronics have been made). The
ability to operate at night and in all weather has been
conferred on any aircraft with a radar and associated weapons
system. What makes the Al radar special, and advances such as
the new pulsed-doppler (PD) techniques and digital processing.
Previously, weapon aiming information was generated by analogue
computers which were low powered and simplistic. (This advance,
coupled with the development of radar guided semi-active
missiles such as the AIM 7 Sparrow). The ability to alter
23
30. frequencies at random intervals, to vary the scan width and to
perform altitude search by raising and lowering the scanner
automatically, have all become commonplace.
one of the most significant of these advances has been the
advent of medium pulse recurrence frequency (MPRF) radars.
It is the high-tech world of Al radar and data processing
development that has made this possible and it is difficult to
see where the limit may be.
The short range air-to-air missiles (SRAAM) seem much less
complex undertakings. They are by and large, considerably
smaller with, as their title indicates, less range and usually a
smaller warhead. What they do have, however, is greater agility
and usually the all important launch and leave capability.
Virtually all the SRAAM in production use an IR seeker head to
home the missile onto the heat generated either by the target's
engines or the surface friction caused by its passage through
the air. The leading edge of wings and tail section in
particular, become hot spots in relatively high speed flight.
The IR missile has been developed to a peak of sophistication
that makes the very latest version like the Matra Magic 2
amazingly versatile weapons. The Magic 2 for example, is said
to be able to maneuver at 50"g," be slaved to the aircraft's
radar for better target acquisitions, have seeker head
sensitivity several tens of times that of the early versions and
to have a head-on kill capability. This capability, plus very
high agility and a quick response system for indicating when
24
31. target acquisition has occurred, makes missiles like this ideal
for the high maneuvering, close corrbat situation.
There are very few air-to-air missiles designed to kill targets
at ranges in excess of 40nm, the size of the rocket motor
required leads to a heavy missile such as the Phoenix AIM-54A
which entered service with the US Navy in 1974. This is quoted
as having a range in excess of ll0nm with an operating envelop
of from sea level to heights above 80,000 ft. combined with the
hughes AN/AWG-9 radar and fire control system installed in the
F-14 Tomcat, this produces a formidable intercept system. Apart
from its long range and high lethality, the Phoenix has another
major characteristics which sets it apart from the other in-
service missiles, MRAAM in that it has a genuine launch and
leave capability. What this means is that once the missile has
been launched it needs no further assistance from the fighter.
These missiles confer an important advantage on the fire they
can be used beyond visual range (BVR) the more common medium
range air-to-air missiles (MRAAM) such as the British Aerospace
Skyflash or the Matra Super 530 or the new USAF Hughes AIM 120
AMRAAM; all have this potential.
25
32. CHAPTER IV
1 - SURFACE TO AIR MISSILES (SAM)
The concept of air defence in depth should also include surface
to air inissiles, to be either a last ditch defensive system, or
the best means of shooting down an attacker. It all depends on
your point of view. Certainly, in the context of national air
defence, it may seem risky to rely only on missiles to prevent
the enemy from reaching his target. Even though each SAM is
likely to be many times less expensive than each interceptor, it
suffers from the major disadvantage that once in position around
a target, or deployed in a belt across an enemy's likely line of
advance, it becomes a fixed and consumable asset. Furthermore,
if the enemy choses to attack another target, short range point
defence SAMS of whatever sort are useless, whereas fighters may,
at the very least, be able to chase the attacker on his escape
from the target. This problem can be overcome to some extent by
the belt system. If SAMs are deployed on a wide front with
interconnecting arcs of fire, attackers can be confronted with a
serious problem. Attackers must either route around the
defences, if their fuel allows, or they must fight their way
through---punching a gap in the defences to let the bulk of the
attackers through. NATO uses the belt concept with the Nike and
Patriot missiles, as do the Soviet with the SA-5. The problem
with the "belt" however, is that if it is breached, the
remaining prepositioned missiles may be useless. To use SAMS
26
33. alone would thus mean covering every possible target area with
enough missiles to take account of the enemy known strength. At
this stage, the cost equation works against the missiles; so
many would needed to give any degree of assurance that no nation
could afford it.
Another important disadvantage of the surface-to-air missiles
system is that it is relatively easy to develop a counter. The
range of most systems deployed is soon an open secret because,
if nothing else, experts can make accurate assumptions from the
missiles dimensions. Stand-off air-launched weapons can then be
used so that the attacking aircraft does not have to penetrate
the missile engagement zone (MEZ). While it may be possible for
the SAMs to engage the incoming missiles, the task is likely to
be much more difficult. Even though SAM launchers can be
reloaded, it can not be done swiftly enough to save the
situation if the defences are out numbered. Swamping a MEZ with
a coordinated combination of stand-off weapons and ECM to attack
the SAMs guidance radars, is a very attractive option for the
enemy. An effective SAM and AAAdefence should contain as many
layers as can be provided, therefore, they are relatively a
cheap and effective way of making life very difficult. Without
themn, the only solution is more fighter aircraft, it is all a
question of a balance of investments.
27
34. CHAPTER V
1 - PU COMMAND AND CONTROL AND COMMUNICATIONS AND INTELLIGENCE
(C31)
A command and control system supporting a commander is not just
a computer with its associated software and displays, it is not
just comnmunications links and, it is not even just all the
information processing and fusion that must go into any well
designed and well operating command and control system. It is
all of the above and much more. The ideal command and control
system supporting a commander is such that the commander knows
what is going on, that he receives what is intended for him and
that what he transmits is delivered to the intended addressee
so that the command decisions are made with confidence and are
based on information that is complete, true, and up-to-date.
The purpose of a command and control system is, in the end, to
provide assurance that orders are received as originally
intended with follow-up in a timely fashion, which can make the
difference between winning and losing wars.
The importance of command and control can be appreciated by
considering the penalties for its failure. In a tactical
engagement, failure in command and control may result in a
tactical defeat, because a commander was unable to bring all his
forces into action, or to apply them efficiently and
effectively, or to prevent them from firing on each other. Nt
the strategic level, failure in command and control may result
28
35. in unnecessary escalation of hostilities. Tense international
situations provide little margin for error in the application of
force, so that extraordinary measures are often taken to make
sure that command and control does not fail. The exercise of
authority and direction by a properly designated commander over
assigned forces is the accomplishment of the mission. Command
and control functions are performed through an arrangement of
personnel equipment, communications facilities and procedures
which are employed by a commander in planning, directing,
coordinating and controlling forces and operations in the
accomplishment of the mission.
Command and control is defined as the process employed by a
commander in planning, directing, coordinating, and controlling
forces operations in the accomplishment of the mission. The
term command means the function to be performed, the word
control means the information flow that permits a commander to
assess the status and progress of his own forces analogous to
friendly intelligence. The command and control process will be
examined primarily from the perspective of decision making,
where a commander, the decision maker is at a distance both from
the phenomena on which he bases his decisions, and from the
people whom he will task to execute them. His command and
control process includes the methods that he uses to get those
decisions carried out in setting up his command and control
process. A commander at any echelon is likely to have three
concerns; whether he has made adequate provisions so that he
29
36. will be informed of significant events that affect his
operations, whether he and his staff will be able to cope with
the information received and to transform it into sensible and
timely decisions and directives; and, whether the directives
that reflect his decisions will be received and executed by
subordinates in time to affect the outcome of the operation.
These transitions from information to directives and from
directives to action require decisions of three types: (1)
operational decisions, (2) organizational decisions, and (3)
information decisions. Commanders are expected to focus on
operational decisions about the employment of their forces but
such decisions are made in light of prior decisions of the two
other types, organizational decisions and information decisions.
A commander's organizational decisions establish a chain of
command for'the execution of his operational decision. They
also establish a structure for the flow of orders and reports,
as well as for the intermediate processing of information
necessary to support his own decision making and to some extent,
the decision making of his subordinate commanders. Information
decisions are those decisions made by a commander as to what he
believes to be and how that decision situation relates to the
mission he is trying to accomplish. A commander's information
decisions about what is happening, although often unrelated,
necessarily precede his operational decisions about what actions
he wants his subordinate commanders to take. Each commander
then has a command and control process by which he makes
30
37. information decisions (about the situation) and then makes
operational decisions (about what action to be taken) and causes
them to be executed all within a structure established by the
organizational decisions made either by the commander or by some
superior commander--Command is a human activity. The exercise
of authority, one person over another, may be facilitated and in
some cases may be made possible only by the application of
technology, yet the command function never loses it's human
dimensions; leadership, courage, and human judgement, are still
as a reminder that function of command is a human activity. We
read Clausewitz's description of "military genius" he elaborated
on those aspects of intellect and strength of character that he
feels distinguish the superior commanders; courage, determina-
tion, presence of mind, a sense of unity, and a power of
judgement. Are these qualities enhanced or perhaps diminished
by supporting C3 systems? Must C3 systems be mated to the
commander's philosophical approach to command and control,
augmenting his strengths and compensating for his weaknesses, or
should commanders be required to adapt to standard systems. In
command and war, Van Creveld uses the term "command systems" to
mean the organization, technical means, and procedures used by a
commander to exercise command. He points out that the basic
command and control problem is as old as war itself.
2 - INFORMATION DECISIONS
A great portion of existing C3 systems are devoted to providing
31
38. commanders with the information they need to assess the
situation and indeed, the primary function of some commands is
to provide such information. Yet the uncertainties are many,
the information available is usually ambiguous, incomplete or
conflicting, and often arrives late; often having been
transmitted imperfectly, or received with error. Uncertainties
about an event are usually reduced over time following the event
as amplifying and clarifying reports are received and
understood---but a commander usually needs to make up his mind
about what action should be taken long before the situational
uncertainties can be resolved completely. Command and control
is a process that takes place within a structure that has many
levels. At the higher levels, the policy consequences dominate,
at the lower levels survival and effectiveness guide decision
making. It is prudent for commanders at all levels to foresee
possible situations so that they can think them through in order
to create plans to deal with them. Problems that have no been
thought about quite thoroughly in advance are not likely to be
solved effectively during a rapidly evolving situation.
Compatible experience and shared context enhance the likelihood
of mind-to-mind communications between echelons. This whole
process is facilitated when the several levels in the chain of
command are provided with essentially identical portrayals of
the action taking place so they are able to discuss with one
another their assessment of the situation and possible courses
of action. The shared understanding by sender and receiver
32
39. about possible situations may be more important than
computer-to-computer links in achievement of efficient and
reliable time reporting. The extent to which fresh reports are
fully understood is dependent on the amount of previous
information exchanged. While a report is customarily viewed as
transporting the information it contains, there may be more
utility in thinking of a report as announcing which of the
possible situations already recognized by both sender and
receiver has now become operative. It should not be surprising
to find that when a truly unexpected situation arises, a
reporting system has to work much harder if it is to convey
effectively, information that is indeed unanticipated. Two
recent developments have significantly affected the command and
control process. This first is that modern forces, employing
stealth and high speeds, can be generated and applied over great
distances in a matter of only a few hours, with strategic
consequences. The second development is that super powers now
have literally, worldwide surveillance coverage of potentially
hostile forces activity. Taken together these developments
place a great pressures on the developers of intelligence to
deal with vast amounts of information and to do so rapidly.
Surveillance data is converted into comprehensible forms and
fused with other data at seat of government, then distributed to
interested commanders in the field. This system is maturing and
changing. The technology now facilitates greater tailoring of
information for field commanders and use of the same raw data to
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40. develop both strategic and tactical intelligence is beginning to
increase although it is not clear whether strategic analysts
will always be able to recognize which data might have tactical
significance for local commanders. There is also the risk that
focusing on current intelligence may blind analysts to long term
strategic indicators.
3 - ORGANIZATIONAL DECISIONS
Organizational decisions need to be made to establish where a
commander gets his facts, whom he relies upon for advice, and
how he insures that his operational decisions get executed,
whether organizational decisions are made by the commander
himself or by some superior commanders, such decisions:
Support the making of information decisions by identifying
the organizations to be tasked to obtain information and by
structuring the flow of information to the commander.
Support the making of operational decisions by structuring
the flow of advice to the commander about what action to
take and facilitate the execution of operational decisions
by establishing a chain of command.
On the information flow side the objective is to tap what ever
sources can provide the information needed to support sound
decision making avoiding, if possible, being at the mercy of a
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41. single source for any particular kind of information with
respect to advice about operational decisions. A commander
night want to rely on a mix of advice from sources both internal
(the commander's staff) and external (other commanders). On the
execution side, on objective of organizational dec4.sions is the
achievement of "unity of effect," a formulation that leaves open
the question as to which effects must be unified and avoids
declaring whether unity of effort can be (or can only be)
achieved by unity of command. Another objective may be to
balance forces and tasks so that there is an equal strain on all
parts. Organizational decisions create a command and control
structure and establish "who decides what." Organizational
decisions are central to command and control because they
establish the structure of relationships that C3 systems are
expected to interconnect. Organizational decisions also specify
the roles that each commander is expected to fulfill in the
command and control process. A separate and often overlooked
implication of an organizational decision is that it narrows the
command and control focus for each commander by specifying for
him the immediate subordinate commanders to whom he will direct
his orders. While the decisions of commanders at every echelon
may be intended to affect operations at the scene of action,
they should direct the action of commanders only at the next
lower echelon. A chain of command establishes both the line of
authority for getting the job done and the line of
Leiponsibility for auccess or failure.
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42. In general, a command may be organized into divisions and
subdivisions by one or more of the following methods:
By area (that is by grouping together all forces within an
area from whatever services or nation or for whatever
purpose).
By medium (that is, by grouping together ground forces, air
forces, and seaborne forces).
By task (that is by grouping together all forces from
whatever service that are directly involved in accomplishing
the same task).
4 - OPERATIONAL DECISIONS
The technical and tactical competence of commanders is tested by
the making of operational decisions. Many skills that are best
developed by experience in command and in combat may need to be
brought to bear, and a few of them are closely related to
command and control.
Six Skills in Particular Come to Mind
The ability to communicate clearly, concisely and
effectively and the willingness to rely on a minimum of
directives.
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43. The ability to visualize how subordinate and superior
commanders are viewing the situation.
The ability to estimate how long it will take for decisions
to be implemented, including how long it will be before
subordinate commanders receive and understand changes in
orders, and how long it will be before new orders start
being executed.
The ability to estimate when reports ought to be received so
that the failure of a report to arrive will raise the
question as to whether or not the operation is proceeding as
planned.
The ability to foresee how much disruption would be caused
by a change in orders.
The ability to reduce confusion within friendly forces while
promoting chaos in enemy forces so that there is less
confusion on the friendly side than on the enemy side.
In the military planning process the classic logic for the
making of operational decisions is the commanders estimate of
the situation. The first steps of the estimate are the analysis
of the mission and the identification of key considerations.
The middle steps require identification of courses of action
37
44. open to a commander and those open to his opponent. The final
steps involve predicting outcomes of all possible interactions
between own course of action and those of the enemy and the
comparison of advantages and disadvantages of each alternative
course of action. The estimate lends itself to a matrix
display, listing alternatives to own course of action down the
side and alternative enemy courses of action across the top.
5 - COMMINICATIONS
In an information flow sense, the world has become smaller as
modern telecommunications has made it possible for people in
their living rooms to view in full color an event anywhere
around the world. The physical separation of decision makers
from each other and from the facts on whi.h they should rely to
make their decision is being overcome by modern
telecommunications. The rate of change of events is usually
greatest at the scene of action, while the opportunity to
readjust decisions is distributed throughout the chain of
command.
To understand the telecommunications process it is necessary to
appreciate two of its aspects: It is symmetrical and it is
arbitrary. As ideas move from the mind of one commander to the
mind of another, the transformations that are undertaken on the
sending (transmitting) side have to be matched on the receiving
side, and they have to be matched exactly. Everything that is
done must be undone; every analog-to-digital conversion needs to
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45. be matched by corresponding digital-to-analog conversion at the
other end, every encryption by a decryption and every modulation
by a demodulation. Therefore, the planning necessary to achieve
an effective telecommunications path is detailed and
unforgiving: any unmatched step will result in communications
failure. It should be clear then, that with all the alternative
methods available for performing each of the communications
steps, the dominant issue in establishing a telecommunications
path is not its optimization but the standardization of its
process at each end. More important than doing things the best
way is doing them the same way which is the objective of the
program on joint interoperability of tactical command and
control systems. Historically, the telephone network with its
analog transmission system was well matched to its information
source; the-human voice in analog form. The transmission of
teletype and increasingly, computer data required that the
digital information be converted prior to transmission over the
telephone network into some analog form by the use of a modular,
whose functions were matched in reverse at the receiving end by
a demodulator. These modulators/demodulators (now generally
called "modems") provided the conversion from one form to the
other.
6 - COMPUTERS
The role of computers in support of command and control is still
evolving. Apart from their extensive use in sensor and
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46. communications networks and in the correlation, filtering, and
analysis of information about the enemy, computers are used to
support the command and control process in three ways:
1. To maintain the status of own forces.
2. To optimize deployment plans and test them for
transportation feasibility.
3. To assist in predicting outcomes of military
engagements.
There is now considerable experience using computers to maintain
the status and to some extent the location of some forces, but
whether the tremendous reporting and computing effort has been
indeed useful to decision makers is not really clear.
Commanders exercise their authority over commanders at the next
lower echelon. It is possible for the information to have been
reported incorrectly or to have changed since the latest report
was written. Reports are more likely to be accurate when the
reporting system has been devised in a way that provides some
incentives for reporting commands to make accurate and timely
reports, an aspect of reporting system design sometimes over
looked. An alternative method of obtaining accurate (though not
necessarily relevant) information in reports is to directly
couple the sensor or weapons system that measures or produces
the raw information with some automatic reporting device, but
this method is usually not popular with intervening commanders.
40
47. The optimization and testing of deployment plans is a role for
computers that has received great emphasis in recent years and
with some success. The prediction of outcomes of military
actions---the role often envisioned for commanders seem to be
most useful where physical parameters dominate, and perhaps
where human conduct can be presumed to follow rigid doctrine.
The two sided nature of combat and the wide variability of
human responses, however, make the prediction of outcomes of
military action by any means very difficult.
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48. CHAPTER VI
1 - CONCLUSION
There are two recent developments that seem alreadly to be
changing the face of air defence, indeed of air combat as a
whole, first there is "stealth." It is clear that the USAF
intends to build and deploy a wide range of stealthy air
vehicles both fighters and bombers. (The Lockheed F-117 and the
Northrope B-2) appear to be designed ds intruders rather than
for air defence purposes. But what is now obvious is that very
low radar cross section (RCS) are achievable and affordable.
Reductions in RCS are the basis of achieving low observability
and the effect can be calculated quite simply because all radars
conform to an immutable law of physics that detection range
varies with the fourth root of RCS measured in square units.
That means if the RCS is reduced by a factor of 10 then the
detection ranje should be divided by 1.78 thus if an aircraft
4ith an RCS of 10 Meters Squared (M2) could be detected at 100nm
range then a reduction of Im2 RCS will result in a pick-up range
oE 56n.m. Now looking at the possibility of RCS in the head on
situation of 0.01 m2, the prospects for detection begins to look
very bleak, particularly for SAM systems which we know rely to a
large extent on radar direction to achieve a kill. Al radars
will be affected in the same way. For the cruise and ARM
missile, ultra low observability seems now to be within the
grasp of most nations with a high technology industrial base,
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49. and long range air-to-surface missiles released at a reasonably
long range can swamp the defences.
Apart from stealth, one other area that seem to offer clear
potential for advances is that of the airborne sensor systems
themselves. Until a radar is devised that can detect the low
RCS target at reasonable range, the air defence fighter will
have to rely on alternatives. Infrared search and track (IRST)
appears to offer some prospects for success. IRST has its
problems too. It needs clear air mass conditions (no clouds) to
be effective, it is at its best at the higher altitudes, away
from the effects of ground heat and it is extremely difficult to
get anything other than a very coarse estimate of range.
Nevertheless, when combined with other information that may be
available to the crew, IRST might be able to get the fighter
close enough to its target. Thus one can see a murky world of
stealth and counter-stealth emerging with each of the
protagonists attempting to outwit the other in a game where the
first one to transmit any signal maybe the loser. And finally,
whatever the real advances turn out to be, one thing is certain,
as long as there are nation states which value their citizens
and their right to decide their own future, the need will remain
for modern highly integrated air defence systems capable of
provi i, e against enemy attack.
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50. LIST OF REFERENCES
1 - Defence Daily, May 11, 1988.
2 - Asian Defence Journal, September 1988.
3 - International Defence Review, September 1988.
4 - Snyder, Frank M. Command and Control, kpril 1989, p. 89-1.
A publication of the Program of Information Resources
Policy, by Harvard University and the Center for
Information Policy Research.
5 - Air Force Magazine, May 1989.
6 - Van Creveld, Martin. Command in War.
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