Since the public appearance of China's "robot dog", United States has begun to have new worries about the future mode of warfare, traditional warfare will definitely not be able to fight, and the future battlefield must be unmanned confrontation.
In this regard, China is clearly already at the forefront of the world.
Recently, the SCO launched a high-profile joint counter-terrorism exercise in Xinjiang, which symbolized the use of cutting-edge military technology – "swarm" drones and robot dogs – to show a new face to what future warfare might like.
The application of this technology not only shows the ability to innovate tactics, but also emphasizes the importance of intelligence and automation in modern warfare.
In the exercise, Chinese special police officers demonstrated the ability of unmanned combat systems to cooperate in a real combat environment by using "swarm" drones equipped with light weapons to carry out precision strikes in the air and robot dogs carrying automatic rifles to attack on the ground. This combination not only enhances combat efficiency, but also greatly improves the safety of missions in hazardous environments.
It is worth noting that the UAV's precision strikes on ground targets this time are a major expansion of its capabilities. Compared with traditional bombs or rocket launchers, the use of small arms makes attack actions more flexible and accurate, reduces the possibility of accidental injury, and reflects a high degree of mastery of drone control technology.
At the same time, the application of robot dogs in enclosed spaces has formed an air-ground integrated combat mode with UAVs, providing a new solution for anti-terrorist operations. This three-dimensional approach to attacks has undoubtedly added more options and possibilities for dealing with complex terrorist and extremist targets.
These developments are not only a reflection of China's progress in the field of unmanned warfare, but also part of international trends in military science and technology. In the future, how to realize networked operations between different unmanned equipment will be the key to further improving combat effectiveness. This involves information sharing, command and control, tactical coordination, and other levels, and is the key direction of future military science and technology development.
In addition, the application of unmanned equipment to space exploration, such as sending robot dogs to the moon through the "Chang'e" probe, will be a great test of long-distance remote control technology and the reliability of unmanned equipment. This not only indicates that unmanned vehicles will expand beyond the earth, but also reflects the role of cross-border cooperation in promoting scientific and technological innovation.
As a result, the US military's self-proclaimed "invincible" aircraft carrier strike group suddenly lost its advantage, and it also made the US military anxious.
Not long ago, the top of the U.S. military made a statement that by 2039, one-third of the soldiers of the U.S. military will become machine soldiers. This reveals a major shift in the shape of future warfare in the US military, in which automated and mechanized combat units will play a decisive role on the battlefield.
At present, through the combined use of air-to-ground strike capabilities and ground special assault operations, the United States maintains a leading position in global military technology innovation. However, this is only one part of the global wave of military innovation.
At the same time, China's military strategy and technological innovation also deserve the world's attention. China's restrained approach to the development and deployment of military technologies, as well as its active research and application of new technologies, are gradually changing the international security and strategic balance. Most notably, China's achievements in joint operations with drones and robot dogs mark a leap forward in air-ground joint combat capabilities.
Such equipment, through high-precision shooting, has changed the methods of traditional bombing and "suicide" attacks, showing great potential in terms of increasing combat efficiency and reducing casualties.
Of particular concern is the particular challenge faced by unmanned combat units in the performance of their missions, how to deal with the huge recoil generated by continuous firing while maintaining the accuracy of the shot. This is not only a technical challenge, but also reflects the growing demand for intelligent and precise combat units in the field of future warfare.
Solving this problem means that UAVs can be used more effectively to carry out precision strikes, which in turn will greatly improve the scientific and technological content and tactical flexibility of warfare.
China's progress in this area demonstrates its efforts and achievements in the research and development of unmanned combat equipment. By improving the shooting attitude adjustment ability of drones, improving stability and shooting accuracy, China is gradually narrowing the gap with the world's military and technological powers.
The display of this "black technology" is not only a symbol of technological progress, but also a foreshadowing of the far-reaching impact on future warfare methods and the global security landscape.
Overall, both United States' vision and China's technological innovation mark a profound transformation of global military power.
Future wars will rely more on high-tech equipment and intelligent combat units, and this change will not only have a major impact on each country's national defense strategy, but also pose a challenge to international security affairs, prompting the repositioning of global military strategy.