During the war, aircraft also participated in anti-submarine missions. In order to pursue longer airborne time, medium and large aircraft were generally modified, such as anti-submarine aircraft modified from large passenger planes, seaplanes, transport aircraft or bombers.
Therefore, after the end of the war, anti-submarine aircraft became specialized new military aircraft. Even though the aircraft body may come from other aircraft types, they are more efficient and combat capable than the improved aircraft in the past.
Today's anti-submarine aircraft have become more and more standardized, and anti-submarine aircraft have become a very important part of modern anti-submarine warfare.
Anti-submarine aircraft generally refer to military aircraft responsible for searching, demarcating and attacking submarines.
Common anti-submarine aircraft are of two types: fixed-wing aircraft or helicopters. Some operate from land airports, and some take off and land from surface ships to perform tasks.
Anti-submarine aircraft are fast and maneuverable. They can conduct condescending searches over large areas in a short period of time, and can easily launch or drop anti-submarine bombs and even the latest nuclear torpedoes into the sea.
Anti-submarine aircraft can be roughly divided into water-based anti-submarine aircraft, anti-submarine helicopters, shore-based anti-submarine aircraft, and ship-based anti-submarine aircraft.
Modern anti-submarine aircraft are equipped with integrated flight electronic systems, including various detectors and navigation, communication and weapons control systems. Detectors include acoustic and non-acoustic types.
The former is such as the "Sonar" buoy lowering system, which can convert the noise emitted by the submarine into a radio signal and automatically send it back to the aircraft to determine the submarine's position;
The latter includes anti-submarine search radar, magnetic permeability detectors, forward-looking infrared detectors, electronic jamming equipment and lighting systems.
The weapons of anti-submarine aircraft have also become diverse, including torpedoes, ordinary bombs, depth bombs, mines and rockets. The weapon control system can be operated automatically or manually.
Fixed-wing anti-submarine aircraft include shore-based, ship-based and seaplanes.
However, the technologies in each of these countries are gradually maturing.
However, Longguo has a fundamental lack in one aspect, and that is the anti-submarine warfare system.
The manpower, material and financial resources required to do this are unimaginable.
However, Longguo has a fundamental lack in one aspect, and that is the anti-submarine warfare system.
The manpower, material and financial resources required to do this are unimaginable.
The most important thing is that Long Guo does not have the ability to develop this system on its own.
This is a huge project.
Why is the Benigato-class Aegis guided missile cruiser of the Sea Eagle Country famous in the world?
Of course, the main reason is that the Benigato-class ship equipped with the Aegis system provides excellent air defense capabilities, giving the aircraft carrier battle group sufficient strength to resist missile attacks from surface, air, and underwater forces.
Whether it is on the ocean or under the ocean level, it can be intercepted.
This includes excellent anti-submarine capabilities.
Basically, it is because of this combat system that all countries covet.
Of course, these are not the only advantages included in this combat system.
Today's Aegis combat system has been fully upgraded in stages.
The version of the Aegis system used by CG-47~51 is the earliest Baseline 1, but the version used by CG-49~51 has several improvements, including enlarging the display screen of the combat situation center, electronic combat program automation, and communication systems Connect with the national command network, strengthen combat operation principles and reliability, install tactical intelligence systems, etc., and install SQQ-28 helicopter data link/sonar signal processing system to cooperate with SH-60B anti-submarine helicopters (CG-47, 48 are still Equipped with SH-2FLAMPSI anti-submarine helicopter system).
The Aegis system of CG-52~58 is the second baseline (Baseline2). Its improvements include the SWG-2 Tomahawk Weapon Fire Control System (TWCS) equipped with Tomahawk cruise missiles and the improved SQQ-8.9 anti-submarine combat system. and Link-11 data link, etc., and began to replace MK-26 with MK-41VLS. From CG-54, SQR-19 towed array sonar began to be installed. From CG-56 onwards, the original SQS-53B bow sonar was installed. The equipment was changed to SQS-53B, and the anti-submarine warfare system was upgraded to SQQ-8. 9 (V) 3.
The Aegis system of CG-59~6.4 is the third baseline (Baseline3). The new improvements include the replacement of the new SPY-1B phased array radar and automatic locking system, the serial operation of shipboard radars, and the replacement of some displays. Replace with UYQ-21.
The Aegis system of CG-65~73 is Baseline 4. The original UYK-7 computer is replaced with UYK-43/44, the computing speed is increased by four to six times, and UYQ-21 monitors are fully used.
In addition, CG-56~67 are equipped with the new SQS-53B bow sonar, and the anti-submarine warfare system of CG-65 is still SQQ-8.9(V)3, which integrates SQS-53B(V)2 bow sonar. Nano, SQR-19B(V)3 towed sonar and MK-116Mod7 anti-submarine fire control system; the anti-submarine fire control system of CG-66 and 67 is SQQ-8.9(V)7, which has been used since CG-68 The updated SQS-53C bow sonar and anti-submarine fire control system are SQQ-8.9(V)6.
SWG-2 Tomahawk weapon fire control system, improved SQQ-8.9 anti-submarine combat system and Link-11 data link, anti-submarine combat system SQQ-8.9(V)3, new SPY-1B phased array radar and The automatic locking system, CG-56~67 are equipped with the new SQS-53B bow sonar, and the anti-submarine warfare system of CG-65 is still SQQ-8.9 (V) 3, SQS-53B (V) 2 bow sonar. Na, SQR-19B(V)3 towed sonar and MK-116Mod7 anti-submarine fire control system, the anti-submarine fire control system of CG-66 and 67 is SQQ-8.9(V)7, and has been used since CG-68 The updated SQS-53C bow sonar and anti-submarine fire control system is SQQ-8.9(V)6.
Each of these systems is a valuable asset to the Dragon Kingdom.
These systems are not only used for cruisers. As long as the calculations and parameters are collected, they can be put into production immediately, without even conducting trial trials at all.
Why?
Because it already includes the parameters of the work carried out by Haidiao Country, these are the most valuable.
The Sea Eagle Kingdom has made all preparations for the Dragon Kingdom in advance, and most of these technologies are already mature.
It is completely possible to comprehensively upgrade Longguo's weapon rear control system, anti-submarine combat system, anti-submarine warfare system, phased array radar and intelligent locking system, as well as the bow sonar, anti-submarine fire control system, etc.
The Dragon Kingdom's security army, which is comparable to the Sea Eagle Kingdom, is just around the corner. It just needs to start production and put it into use.
Let the soldiers of the Dragon Kingdom Security Army get familiar with it.
As long as the facilities can keep up, how can the Dragon Kingdom security army be afraid of the Haidiao Kingdom security army?
To be honest, Li Jianan was completely messed up at this time.
He never dared to imagine that what Zhuang Ming brought back was this kind of thing.
This black box actually comes from the most famous Benigato-class Aegis guided missile cruiser in the Sea Eagle Kingdom.
For a moment, my tongue was completely tied up and I couldn't speak.
surprise?
Shock?
Shocked?
Well, Li Jianan's mind was completely blank at this time.
If he was full of expectations just now, now he was completely confused.
This thing that made the Dragon Kingdom's security army take off was unexpectedly thrown to him casually by Zhuang Ming.
(End of chapter)
