Thailand | Operation Aerial Shield II

[Bossza007]

---

---

Title: Operation Aerial Shield II
Document Number: RTAF-AESE2-001/2005
Classification: Semi-Confidential | Secret
Security Level: NSST 1.0 Architecture
Date: April 18, 2005
Public Section: I. | II.
Secure Information and Intelligence Sharing: Empire of France (Alexander)

---

XI. IntroductionX

Background and Objective

Operation Aerial Shield II is a large-scale aerial security operation authorized by the Ministry of Defense of the Socialist Republic of Thailand, with formal endorsement from the National Assembly Joint Defense Committee. The mission is designed to protect the revolution by ensuring the sovereignty and security of Thailand’s airspace, reinforcing the nation's defense capabilities, and deterring any external or internal threats to the state.

The operation deploys 54 multi-role aircraft to conduct Combat Air Patrol (CAP) missions across critical airspace zones. These aircraft are tasked with safeguarding Thailand’s air defense identification zones (ADIZ), monitoring air traffic, and responding to potential airborne incursions. The operation highlights aerial domain awareness, with a focus on early detection and rapid response to any suspicious or hostile activity that could undermine Thailand’s security or air sovereignty.

In addition to its air defense role, Aerial Shield II integrates airspace management, including the enforcement of no-fly zones and ensuring the safety of civilian air traffic. The mission aligns with Thailand’s broader strategy of socialist defense, combining military readiness with a commitment to international airspace regulations and environmental protections.

The operation operates under a decentralized command structure, with regional air defense councils and worker collectives providing strategic input to ensure that its implementation aligns with the principles of political and economic democracy. Aerial Shield II further reinforces Thailand’s status as a major military power, showcasing its ability to maintain air superiority while upholding its socialist values and commitment to regional stability.

Full Image​

XII. Command and ControlX

2.1 Guidance

Operation Coastal Shield III is led by Marshal of the Air Force Sukampol Suwannathat, the Commander-in-Chief of the Republic Thai Air Force. Under his leadership, the operation adheres to a structured command hierarchy that emphasizes civilian oversight. The Ministry of Defense retains full control over all operational directives and decisions, ensuring alignment with national defense strategies. The Air Force executes its missions within the operational limits set by civilian authorities, reflecting the principles of democratic governance. Furthermore, the National Assembly Joint Defense Committee maintains supreme authority over the operation, providing oversight to uphold accountability and effectiveness in safeguarding Thailand's maritime interests.

XIII. Operational ForcesX

Republic Thai Air Force First Wing

• Takhil Airbase
  • 405th Fighter Squadron "Dragon"
    • [4] F-16AM Block 20 MLU
    • [2] F-16BM Block 20 MLU
      • 8 Pilots
      • 69 Ground Crews
      • 25 Reserved Pilots
• Kamphaeng Saen Airbase
  • 406th Fighter Squadron "Focus"
    • [4] F-16AM Block 20 MLU
    • [2] F-16BM Block 20 MLU
      • 8 Pilots
      • 69 Ground Crews
      • 25 Reserved Pilots

Republic Thai Air Force Second Wing

• Chiang Mai Airbase
  • 401st Fighter Squadron "Thunder"
    • [4] F-16AM Block 20 MLU
    • [2] F-16BM Block 20 MLU
      • 8 Pilots
      • 69 Ground Crews
      • 25 Reserved Pilots

Republic Thai Air Force Third Wing

• Prachuap Kiri Khan Airbase
  • 407th Fighterl Squadron "Python"
    • [4] F-16AM Block 20 MLU
    • [2] F-16BM Block 20 MLU
      • 8 Pilots
      • 69 Ground Crews
      • 25 Reserved Pilots
• Surat Thani Airbase
  • 103rd Fighter Squadron
    • [4] Saab JAS 39C
    • [2] Saab JAS 39D
      • 8 Pilots
      • 69 Ground Crews
      • 25 Reserved Pilots
  • 702nd Air Control Squadron
    • [2] Saab 340 AEW&C
      • 12 Crews
      • 23 Ground Crews
      • 36 Reserved Crews
• Hat Yai Airbase
  • 408th Fighter Squadron "Cobra"
    • [4] F-16AM Block 20 MLU
    • [2] F-16BM Block 20 MLU
      • 8 Pilots
      • 69 Ground Crews
      • 25 Reserved Pilots
  • 702nd Air Control Squadron
    • [2] Saab 340 AEW&C
      • 12 Crews
      • 23 Ground Crews
      • 36 Reserved Crews

Republic Thai Navy Fourth Wing

• Udorn Airbase
  • 402nd Fighter Squadron "Hunter"
    • [4] F-16AM Block 20 MLU
    • [2] F-16BM Block 20 MLU
      • 8 Pilots
      • 69 Ground Crews
      • 25 Reserved Pilots
• Ubon Airbase
  • 403rd Fighter Squadron "Sunny"
    • [4] F-16AM Block 20 MLU
    • [2] F-16BM Block 20 MLU
      • 8 Pilots
      • 69 Ground Crews
      • 25 Reserved Pilots
• Sa Kaeo Airbase
  • 404th Fighter Squadron "Mosquito"
    • [4] F-16AM Block 20 MLU
    • [2] F-16BM Block 20 MLU
      • 8 Pilots
      • 69 Ground Crews
      • 25 Reserved Pilots

XIV. ExecutionX

4.1 Initial Deployment

All personnel must report to their respective base with all required equipment as outlined in the Defense Ministry documents. This includes ensuring all personal gear, mission-specific tools, and communication devices are in operational condition. Fuel and supplies for equipment, including vehicles, ships, or aircraft, must be fully stocked and checked for any issues. Personnel are expected to maintain readiness to deploy upon arrival. Routine inspections and safety protocols will be strictly enforced. Adherence to these directives is essential for ensuring the success of the mission and overall operational effectiveness in the current situation.

4.2 Communication

Effective communication among all units is paramount and must be maintained through the use of secure communication channels. Any unidentified or suspicious activity must be immediately reported to the command center, except in situations where such actions are deemed non-ideal or potentially detrimental. In these cases, all units and personnel, who are thoroughly trained and well-versed in operational protocols, must exercise their best judgment in handling the situation. All personnel have undergone rigorous training to ensure flawless communication protocols are followed within and between units. This training emphasizes excellence in both verbal and non-verbal information conveyance, ensuring that all communications are clear, concise, and secure.

4.3 Rules of Engagement

Engagement will be per the established Rule of Engagement (ROE) with the application of Increased Vigilance (IVG) and international laws. The use of force must be proportionate, and only used in self-defense or to deter identified threats after all non-lethal methods have been exhausted. They would never enter any country's territorial water

4.4 Support

Logistic support, including fuel, supplies, and maintenance, will be provided by the respective airbase. Air Force personnel are provided with technologically advanced flight suits designed to resist high G-forces and extreme temperatures. These suits are integrated with life-support systems that provide oxygen supply and regulate body temperature. Flight helmets come equipped with Heads Up Display (HUD) for enhanced situational awareness, with inbuilt noise-cancelling communication systems and oxygen masks. The standard issue firearm for air force personnel is the Colt M4 carbine, chosen for its light weight and reliability. The carbine is equipped with accessory rails for various attachments like optical sights and tactical lights. The Glock 17, known for its ease of use and durability, serves as the sidearm. Air force personnel are also equipped with a variety of munitions, including flash, smoke, and fragmentation grenades. Air force personnel are issued advanced, encrypted tactical radios and GPS devices, capable of syncing with onboard avionics systems. For pilots, additional avionics equipment, including multi-function display systems and radar apparatus, is installed in their aircraft for enhanced situational awareness and precise navigation.

Depending on their role, air force personnel may be equipped with additional advanced equipment. This includes parachute survival kits integrated with GPS beacons and portable anti-aircraft missile systems for ground personnel. Pilots are issued advanced ejector seats fitted with survival kits that include rafts, flares, food and water rations, and medical supplies. All personnel are provided with personal first aid kits, including supplies for treating burns, fractures, and hypoxia conditions. These kits also incorporate quick-clotting agents for immediate hemorrhage control and auto-injectors for emergency self-administration of critical drugs. Air force personnel are equipped with high-tech gear such as portable charging units for electronic equipment, tactical flashlights, and infrared binoculars for night operations. Ground crew members are also provided with equipment for aircraft maintenance, including portable diagnostic computers and specialized toolkits.

XV. CoordinationX

5.1 Inter-agency

Inter-agency communication between the Republic Thai Air Force and other elements of the Republic Thai Armed Forces will be rigorously upheld, prioritizing security measures at all times. Liaison channels facilitating communication and information sharing between these agencies are established and overseen by the Republic Thai Armed Forces Headquarters. Integral to this communication infrastructure are the Tactical Power Display (TPD), Situation Awareness Display (SAD), and Maritime Awareness Display (MAD), all seamlessly integrated into the coordination and communication systems of all units involved. The comprehensive situational awareness and operational effectiveness across both land and maritime domains are ensured in this deployment and operation with undisturbed consistency.

5.2 International

Any decision to coordinate with foreign entities, whether at an informal or official level, must be promptly reported back to Headquarters for immediate deliberation in conjunction with the Ministry of Foreign Affairs. Any individuals not directly involved in the operation must be regarded with the highest level of scrutiny by both organizational and governmental authorities. Additionally, any interactions with foreign units must be conducted with appropriate response.

XVI. ConclusionX

Operation Aerial Shield II is now fully operational, with all necessary resources deployed by the Ministry of Defense. This operation highlights Thailand's dedication to maintaining air sovereignty and its position as a global military power. The mission will ensure the security of Thailand’s airspace, promote peace, and uphold international cooperation. Ongoing updates will be provided to relevant authorities as the operation continues.

[Signature]
Sutin Klungsang
Defence Minister

[Signature]
Thaksin Shinawatra
Prime Minister, Republic of Thailand

Document Clearance:
The Office of the Prime Minister
The Ministry of Foreign Affairs
The National Intelligence Agency
The Republic Thai Air Force Command Center
The Republic Thai Navy Command Center
The Republic Thai Armed Forces Special Warfare & Operation Command

Distribution List:
The Office of the Prime Minister
The Ministry of Foreign Affairs
The National Intelligence Agency
The Republic Thai Air Force Command Center
The Republic Thai Navy Command Center
The Republic Thai Police
The Republic Armed Forces Headquarters
The Republic Thai Air Defense Command
The Naval Special Warfare Command
The Air Force Security Force Command
​

F-16AM/BM Block 20 MLU Loadouts

Secret and Encrypted

• Intercept mission
  • 4 × AIM-120C AMRAAM
  • 2 × IRIS-T or
  • 2 × AIM-9X Sidewinder
  • AN/ALQ-131 & AN/ALQ-184 ECM pods on centerline
  • 2 × 600 US gallon Sargent Fletcher drop tanks
• Strike mission
  • 4 × AIM-120C AMRAAM or
  • 2 × AIM-120C AMRAAM and 2 × AIM-9X Sidewinder
  • 6 × AGM-65D/G Maverick
  • AN/ALQ-131 & AN/ALQ-184 ECM pods on centerline
  • 2 × 600 US gallon Sargent Fletcher drop tanks
• Anti-ship mission
  • 4 × AIM-120C AMRAAM or
  • AIM-120C AMRAAM and 2 × AIM-9X Sidewinder
  • 2 × AGM-84 Harpoon and 2 × [drop tanks] or
  • 4 × AGM-84 Harpoon
  • SUU-42A/A Flares/Infrared decoys dispenser pod and chaff pod
  • AN/ALQ-131 & AN/ALQ-184 ECM pods on centerline or 1 × 600 US gallon Sargent Fletcher drop tanks
• Bombing mission
  • 4 × AIM-120C AMRAAM or
  • 2 × AIM-120C AMRAAM and 2 × AIM-9X Sidewinder
  • 4 ×Joint Direct Attack Munition with Mark 84 GP bomb or
  • 8 × Mark 83 GP bombs or
  • 12 × Mark 82 GP bombs
  • AN/ALQ-131 & AN/ALQ-184 ECM pods on centerline

Saab JAS 39C/D Gripen Loadouts

Secret and Encrypted

• Multirole mission
  • 2 × IRIS-T
  • 2 × MBDA Meteor or AIM-120C
  • 2 × AGM-65D/G Maverick
  • 1 × Mark 82 bombs
  • 1 × ALQ-TLS electronic countermeasures (ECM) pod
• Air superiority mission
  • 2 × IRIS-T
  • 4 × MBDA Meteor or AIM-120C
  • 1 × ALQ-TLS electronic countermeasures (ECM) pod
  • 1 × 600 US gallon Sargent Fletcher drop tanks
• Ground Support Mission
  • 2 × IRIS-T
  • 2 × AGM-65D/G Maverick
  • 3 × Mark 82 bombs
  • 1 × ALQ-TLS electronic countermeasures (ECM) pod
• Anti-Ship mission
  • 2 × IRIS-T
  • 2 × MBDA Meteor or AIM-120C
  • 2 × RBS-15F Mk. III anti-ship missile
  • 1 × ALQ-TLS electronic countermeasures (ECM) pod
  • 1 × 600 US gallon Sargent Fletcher drop tanks
• Strike mission
  • 2 × IRIS-T
  • 2 × AGM-65D/G Maverick
  • 2 × Taurus KEPD 350
  • 1 × ALQ-TLS electronic countermeasures (ECM) pod
  • 1 × 600 US gallon Sargent Fletcher drop tanks

 

[Bossza007]

Secret and secure unless contextually possible. | NSST 1.0 Architecture​

Prior to the deployment of Air Force personnel for Operation Aerial Shield II, all members underwent an intensive pre-deployment training regimen, incorporating scenario-based simulations specifically designed to address the operational challenges anticipated. Pilots engaged in rigorous flight simulations, rehearsing a variety of combat scenarios, interception techniques, and coordinated maneuvers. These simulations were calibrated to replicate the exact geographical and atmospheric conditions expected during the mission. Ground crews received specialized training focused on rapid maintenance, troubleshooting, and emergency repair procedures tailored to the aircraft models assigned to the operation. This training included hands-on experience with the latest diagnostic tools and familiarization with recent upgrades to aircraft systems. Joint exercises involving both pilots and ground crews were conducted to enhance coordination and communication, simulating the operational tempo and pressure of real-time missions. These drills were designed to instill muscle memory for critical procedures and improve decision-making under stress. Psychological preparation was also a key component of the pre-deployment process. Military psychologists facilitated workshops on stress management, decision-making under pressure, and maintaining mental acuity during extended missions. These sessions were tailored to the unique psychological demands of prolonged air patrols and potential combat engagements.

A comprehensive audit, replacement, and upgrade of all mission-critical equipment was conducted. This process included a complete overhaul of the F-16AM/BM Block 20 MLU and Saab JAS 39C/D Gripen aircraft to ensure optimal performance. All necessary software and hardware updates were implemented, with particular emphasis on improving communication systems, radar capabilities, and electronic warfare suites. The Air Force also invested in advanced mission planning software, enabling detailed pre-flight briefings and real-time updates during operations. This software was fully integrated with aircraft systems, providing pilots with real-time intelligence and enhanced situational awareness. Additionally, advanced maintenance scheduling systems were deployed to maximize aircraft availability and minimize downtime. These systems utilized predictive analytics to forecast maintenance requirements, allowing for proactive scheduling that ensured peak operational readiness. Communication infrastructure was rigorously reviewed and upgraded where required. Improvements included enhanced encryption protocols, increased bandwidth for secure data transmission, and seamless integration across air, naval, and ground assets. Redundant communication systems were prioritized to guarantee uninterrupted command and control, even under adverse conditions.

A comprehensive review of the supply chain was conducted to identify and eliminate potential bottlenecks. This process involved establishing robust partnerships with key suppliers, including international allies within the Empire of France, to ensure a consistent flow of critical parts and materials. Advanced inventory management systems were implemented at all bases supporting the operation. These systems utilized complex algorithms and artificial intelligence to predict supply needs, automate reordering, and optimize stock levels, ensuring a balance between operational readiness and cost-efficiency. The Air Force also established forward supply depots at civilian airports throughout Thailand, providing quick access to essential supplies and reducing maintenance and repair response times. These depots were stocked based on detailed analysis of historical usage data and anticipated operational demands. Fuel management was identified as a critical focus, leading to the deployment of advanced forecasting tools to optimize fuel storage and distribution. Contingency plans for potential supply disruptions were established, along with the exploration of alternative fuel sources to enhance operational flexibility.

A dedicated intelligence task force was established to provide continuous threat assessment and situational updates. This team leveraged advanced data analytics and artificial intelligence to process vast amounts of information from various sources, including satellite imagery, open-sourced intelligence, signals intelligence, and human intelligence. The Air Force collaborated closely with other branches of the military and intelligence agencies to create a comprehensive threat matrix. This included detailed analysis of potential adversaries’ capabilities, tactics, and intentions, allowing for the development of tailored countermeasures and operational strategies. Advanced threat simulation software was employed to war-game various scenarios, helping commanders and pilots to prepare for a wide range of potential situations. These simulations were continuously updated based on latest intelligence to ensure their relevance and effectiveness.

Detailed meteorological studies were conducted to assess and predict weather patterns in the operational area. Advanced weather modeling software was employed to generate accurate, long-term forecasts, facilitating improved mission planning and risk assessment. Additionally, a comprehensive geographical and topographical analysis of the area was completed, focusing on identifying potential obstacles to navigation, communication, and radar performance. This data was integrated into mission planning tools and pilot briefings to enhance situational awareness and operational efficiency. Environmental impact assessments were also carried out in accordance with Thailand’s commitment to environmental protection. These assessments included strategies to minimize noise pollution, reduce carbon emissions, and mitigate any potential ecological effects from the increased air operations.

Recognizing the importance of peak physical and mental condition for air operations, the Air Force implemented comprehensive health and wellness programs. These included personalized fitness regimens, nutrition plans, and regular health check-ups tailored to the specific demands of air combat roles. Sleep management wad a key focus, with the implementation of scientifically-backed sleep optimization strategies. This included the use of light therapy, noise-cancelling sleep pods at bases, and education on circadian rhythm management for personnel involved in night operations or crossing multiple time zones. Mental health support systems were strengthened, with readily available counseling services and peer support networks. The Air Force also implemented mindfulness and stress-reduction programs, recognizing their potential to enhance focus and decision-making abilities in high-stress situations.​

 

[Bossza007]

Secret and secure unless contextually possible. | NSST 1.0 Architecture​

At 1200 hours local time on April 19, 2005, two F-16AMs, one F-16BM, two JAS 39Cs, and one JAS 39D launched from their respective airbases in Thailand. The F-16s were equipped with intercept loadouts featuring IRIS-T missiles, while the Gripen aircraft carried AIM-120C air superiority loadouts. The aircraft maintained operations within the designated flight zone (white circle areas), remaining strictly within national airspace. After approximately 90 minutes of flight time, all aircraft returned to their airbases for refueling and crew rotation. Meanwhile, three reserve aircraft had already been launched to maintain continuous air patrol.​

 

[Bossza007]

Secret and secure unless contextually possible. | NSST 1.0 Architecture​

Following the deployment of F-16 and Gripen aircraft, the focus shifted to ensuring the technical reliability of the Saab 340 AEW&C platforms for sustained maritime operations. Engineers conducted comprehensive pre-deployment checks on the aircraft’s critical systems, with particular emphasis on the surveillance radar and communication suites. The dorsal-mounted PS-890 Erieye radar system was precisely calibrated to enhance detection capabilities in maritime environments, where atmospheric conditions had a significant impact on radar performance. A stringent testing protocol was implemented for the aircraft’s advanced communication systems, ensuring seamless interoperability with naval assets and land-based command centers. This protocol included validation of encrypted data links, testing of backup communication systems, and confirmation of the reliability of satellite communication channels critical for beyond-line-of-sight operations.

Given the specialized requirements of maritime AEW&C missions, crews underwent extensive training focused on aerial surveillance patterns over oceanic areas. This training involved intensive simulation exercises replicating the designated 30-kilometer racetrack pattern planned for the operation. The simulations included various scenarios such as abrupt weather changes typical in maritime environments, electronic warfare threats, and emergency procedures unique to over-water operations. Coordination with naval assets and identification of different maritime vessels and their behaviors were integral components of the training. The Air Force also maintained a reserve cadre of crews specifically trained for AEW&C missions to ensure the availability of personnel proficient in the challenges posed by extended over-water operations.

A sophisticated meteorological analysis system was established to provide detailed forecasting for the operational area. This system incorporated high-resolution weather modeling tailored to maritime conditions, analysis of seasonal weather patterns affecting radar performance, and studies of atmospheric ducting effects on both radar and communication systems. Additionally, the system assessed sea states and their potential impact on surface vessel detection, complementing the primary focus on aerial early warning. Advanced computational models were employed to determine the optimal flight altitude for radar coverage, factoring in how atmospheric conditions could affect aircraft performance.

Recognizing the critical nature of AEW&C operations, the Air Force implemented a comprehensive maintenance protocol. This protocol included the establishment of forward maintenance capabilities at coastal airbases and civilian airports, the use of predictive maintenance systems powered by algorithm-based solutions, and AI-driven diagnostics. Rapid response maintenance teams specializing in AEW&C systems were developed, alongside the creation of dedicated logistics chains for critical spare parts. Regular corrosion prevention measures were instituted to mitigate the effects of prolonged exposure to the maritime environment.

The Air Force implemented an advanced fuel management system to ensure sustained operational capability. This system included the precise calculation of fuel requirements for the designated racetrack pattern, the establishment of fuel reserves for contingency scenarios, and the development of refueling schedules aligned with mission rotations. Strict fuel quality control measures tailored to maritime operations were enforced, along with the creation of emergency diversion protocols supported by detailed fuel planning. In coordination with the command of Operation Coastal Shield III, joint operating procedures were established with naval forces. These procedures encompassed the development of clear communication protocols between air and naval assets, the creation of a shared situational awareness framework, the implementation of coordinated response measures, and the development of joint emergency protocols.Additionally, the operation saw the installation of the latest electronic countermeasure systems, the formulation of emission control protocols, and the application of advanced cybersecurity measures. An electronic warfare threat library was created, and emergency procedures were regularly tested under simulated electronic attack conditions to ensure operational resilience.​