Chapter 243: 243:Latest Tech
With that, Aurora displayed the technological advancements their people had achieved so far:
[ Wireless Electric Transmission ] Discover hidden tales at m,v l'e-NovelBin.net
Wireless electric transmission technology allows electrical energy to be transferred from power sources to devices without the need for physical cables.
Utilizing resonant inductive coupling, electric towers emitted electromagnetic fields at specific frequencies and devices equipped with compatible resonators could capture this energy, effectively converting the electromagnetic waves back into electricity.
This system eliminates the limitations of traditional wired connections, enabling seamless device charging and powering of devices from a distance.
[ Wireless Charger ]
The wireless charger employs the principles of electromagnetic induction to charge devices without needing them to be plugged in. It consists of a charging pad containing a coil that generates an alternating magnetic field and when a compatible device with a receiver coil is placed on it, the magnetic field induces an electric current in the receiver device, charging the battery.
This technology streamlines the charging process, promoting convenience and reducing wear on charging ports.
[ Holographic Displays ]
Holographic display technology creates three-dimensional images that can be viewed without special glasses. Using a combination of laser light and interference patterns, holographic projectors generate realistic 3D visuals in mid-air, enhancing communication, entertainment, and education by providing immersive experiences that allow users to interact with virtual objects in real time.
[ Nanotechnology ]
Nanotechnology involves manipulating matter at the molecular or atomic level to create new materials and devices. In medicine, nanoparticles can be designed to deliver drugs directly to the targeted cells, improving treatment efficacy while minimizing its side effects.
In manufacturing, nanomaterials can enhance the strength, durability, and lightweight properties of products, revolutionizing industries such as aerospace and construction.
Note: The technology is still in the testing phase.
[ Smart Material ]
Smart materials have the unique ability to respond to environmental changes, such as temperature, light, or pressure. Shape-memory alloys, for example, can return to their pre-defined shape when heated, making them ideal for applications in robotics and engineering.
Other smart materials can change color or show transparency when exposed to specific stimuli, offering innovative solutions for dynamic and adaptive design.
[ Biometric Security Systems ]
With AI integration, biometric systems can now analyze behavioral patterns and adapt to detect anomalies, significantly increasing the robustness of security measures.
[ Brain-Computer Interfaces (BCI) ]
Brain-computer interfaces establish direct communication between the brain and external devices. Using sensors to detect brain activity, BCIs translate neural signals into commands for computers or prosthetics, enabling individuals with disabilities to control devices through thought alone.
This technology holds promise for improving human capabilities and improving the quality of life for those with mobility impairments.
After reviewing the list with satisfaction, Evan asked to lay down the lineup for weapons and defense.
[Here you go, Sir.]
A screen lit up before Evan, showcasing various weapons that had been developed.
[ Autonomous Drones ]
Autonomous drones equipped with AI can independently conduct surveillance and combat missions, navigating complex terrains and identifying targets in real-time.
[ Directed Energy Weapons (DEWs) ]
Directed energy weapons utilize lasers and microwaves to disable or destroy targets instantly. Their precision targeting minimizes collateral damage, making them a powerful tool in combat situations.
[ Plasma Shields ]
Plasma shields create a protective barrier by generating superheated ionized gas (plasma) that deflects projectiles and energy attacks. These shields can dynamically adjust their density based on the type of incoming threat, providing adaptive protection on the battlefield.
[ Laser Guns ]
Laser guns come in various forms, each designed for specific applications:
- High-Energy Laser (HEL) Systems: These weapons emit focused energy beams capable of destroying fast-moving targets like drones and missiles.
- Laser Designators: Used for targeting and guiding munitions, these systems provide precise targeting information to enhance strike accuracy.
- Non-lethal Laser Weapons: These are designed to incapacitate or deter targets by using lower energy levels to cause temporary blindness or disorientation.
[ Smart Munitions ]
Smart munitions are precision-guided projectiles that can adjust their trajectory mid-flight using GPS and inertial navigation, ensuring that they accurately hit intended targets.
[ Combat Robots dog ]
Combat robot dogs assist in battlefield operations and are equipped with sensors and weaponry to perform tasks ranging from reconnaissance to bomb disposal, reducing risk to human soldiers.
[ Modular Armor Systems ]
Modular armor systems offer customizable protection for military vehicles, using lightweight materials to enhance mobility while providing adaptable defense against various threats.
[ Tactical Augmented Reality (TAR) ]
Tactical augmented reality systems provide soldiers with real-time data via smart glasses, improving their situational awareness and decision-making during missions.
[ Exoskeleton Suits ]
Exoskeleton suits enhance a soldier's strength and endurance, allowing them to carry heavier loads and perform physically demanding tasks with reduced fatigue.
_____
"We are still lacking in the nanotechnology department," Evan remarked.
[We may be for now, but I am sure it won't be long before we will catch up. However, we don't need to wait for much if you buy it from the store.]
Hearing this, Evan looked at the system interface in partial sections.
[Nanotechnology]: 500,000,000
500 million SP—a bit too much, wasn't it? Unfortunately, he didn't have that much to spare.
[Sir, what do you plan to do next?]
"Just focus on technology!" Evan answered indifferently only to be quickly reminded by Aurora of the brewing political tension.
[I am referring to those politicians, Sir.] Aurora briefly updated him on the tense situation that was going on the bench.]
Evan paused for a moment and rubbed his chin carefully, "That's a good question. They are likely plotting ways to deal with me even now, but as long as they don't drop a nuke, we are safe. Not that it matters, since we already have plasma shields covering the entire island."
[Still, we can't just wait and let them. They are already discussing ways to harm you, Sir.] Aurora warned, trying to warn him about the impending danger and take action beforehand
"In that case, let's push them a bit"
[You mean?]
"Yes, release those images and all transactions, videos, evidence, and everything related to their black money dealing."
"Hahahaha! Let those political parties sink into chaos."
[But Sir, it might destabilize the country's situation and we don't have that much influence to negate the impact.]
"Hmmm! You are right about that, so instead of directly flooding it all at once, leak a few files to the news agencies. Just target the minor politicians with small influences for now and let's see how the boot-licking media acts. If possible, we should also sweep these people along the way."