Building a Business Empire with my Technological System

Chapter 275: The Modern Warships



Weaponry has also evolved. Modern warships are equipped with the latest in missiles, torpedoes, and advanced guns. They often feature vertical launch systems (VLS) that can fire a variety of missiles, from anti-aircraft to anti-ship and land-attack missiles. This versatility in armament ensures that a single warship can handle multiple threats from different directions.

Electronic warfare is another crucial component. Modern warships are equipped with systems that can jam enemy radar, deploy electronic decoys, and even engage in cyber warfare. These ships are designed to disrupt enemy sensors and communications, giving them a significant advantage in battle.

Integration is key in modern naval design. The radar, sonar, weapons, and command systems on these ships are all interconnected, allowing for seamless operation. This integration enables quicker response times and more accurate targeting, essential in high-stakes combat scenarios.

Automation has reduced the need for large crews, as many systems are managed by sophisticated software. This allows the crew to focus on mission-critical tasks without being bogged down by routine operations.

The modular design has also become a standard in modern warship construction. These vessels are built in sections that can be easily replaced or upgraded. This approach allows for quicker technological updates without needing a complete overhaul of the ship. It\'s like having a smartphone that you can upgrade piece by piece rather than buying a new one every few years.

Multirole capabilities are emphasized in modern naval doctrine. Warships are no longer built for a single purpose. Instead, they are designed to perform a variety of tasks, from anti-air warfare to anti-submarine warfare and surface combat. This versatility makes them invaluable in various combat scenarios, able to adapt to the ever-changing demands of modern warfare.

Nations around the world have adopted these principles in their warship designs. The United States, for example, focuses on large, powerful ships like the Arleigh Burke-class destroyers. Although they tried designing the Zumwalt-class destroyers to be the pinnacle of modern naval technology, the project faced significant setbacks.

The Zumwalt class was envisioned as a next-generation destroyer with advanced stealth features, a cutting-edge electric propulsion system, and superior firepower. Its unique, angular design aimed to minimize its radar signature, making it appear like a small fishing boat on enemy radars despite its large size.

The ship was also equipped with the Advanced Gun System (AGS), designed to fire long-range land-attack projectiles with pinpoint accuracy.

However, the project encountered several major issues. Cost overruns were one of the primary reasons for its struggles. Initially, the Navy planned to build 32 Zumwalt-class destroyers, but as development costs soared, the number was reduced to three. The final price tag for each ship ballooned to over $4 billion, making them the most expensive destroyers ever built.

Technical challenges also plagued the Zumwalt class. The innovative systems, such as the electric propulsion and AGS, faced numerous development hurdles. The AGS, in particular, became a significant problem when the cost of its specially designed ammunition skyrocketed to nearly $800,000 per round, making it financially unsustainable to use.

Moreover, the role of the Zumwalt class within the Navy\'s strategy became unclear. Initially intended for shore bombardment and land-attack missions, the reduction in fleet size and the high operational costs led to a reevaluation of their mission profile.

The Navy eventually decided to repurpose the ships for surface warfare, which meant that some of the specialized capabilities and technologies onboard were underutilized.

But the United States was on the right track in making advanced warships, as Michael found in his technological system. There was a design for a warship from 2045. The appearance and capabilities of this ship were remarkable.

The warship from 2045 had an advanced hull design that further reduced its radar signature. It was covered in a new material that absorbed radar waves even more effectively than the stealth coatings used today. The ship\'s shape was even more angular and streamlined, making it nearly invisible on radar screens.

Its weaponry had also advanced. The ship was equipped with railguns and laser weapons, which offered faster and more accurate targeting than traditional missile systems. These weapons could engage multiple targets simultaneously, providing a significant edge in combat.

Electronic warfare systems on the 2045 warship were state-of-the-art. They could not only jam enemy radar and communications but also hack into enemy systems to gather intelligence and even disable their weapons. This gave the ship a powerful offensive and defensive capability in electronic warfare.

The integration of systems on this ship was flawless. All sensors, weapons, and command systems worked together seamlessly, allowing the crew to respond quickly to any threat. The ship\'s AI-assisted command system could process data and suggest optimal actions faster than human operators alone.

Automation was taken to the next level. The ship required a minimal crew, with most tasks handled by advanced AI and robotics. This reduced the need for large living quarters and support facilities, allowing more space for weapons and sensors.

The modular design of the ship meant it could be easily upgraded with the latest technology. New weapon systems, sensors, and other equipment could be added without a complete overhaul. This kept the ship at the cutting edge of technology throughout its service life.

Multirole capabilities were fully realized in this design. The ship could switch between roles as needed, from air defense to anti-submarine warfare to surface combat. It could even serve as a command center for fleet operations, coordinating actions of other ships, aircraft, and submarines.

But the cost was 350,000 System Points. He looked at his balance—it was 225,000. He was short.

Michael leaned back in his chair, thinking. He needed to find a way to accumulate more points. The future of his shipyard project depended on it.

The most efficient way to earn system points is to complete missions. However, there was no mission in progress as all of it was completed.

Then suddenly—the technological system\'s notification popped up.

[New feature unlocked!]

[The System will now give the host missions to earn System Points. The host can freely choose the mission it wants to complete.]

[Tap here to find out the available mission available for you]


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