Secret Tactics of Energy Weapons in Crowd Control.

Ryan Chilton Aug 15, 2024
57 People Read
advanced energy weapons, police riot shield, US20110235467A1, non lethal weapons, crowd control, crowd control police

In a world where technology often seems to outpace our understanding, certain advancements remain shrouded in secrecy. One such technology that has surfaced is the advanced energy weapon known as the Pressure Shield. Although not widely publicized, its capabilities are fascinating and could lead to some eyebrow-raising questions about what other hidden technologies might be out there.

energy weapons, police weapons, crowd control, advanced energy weapons

The Pressure Shield, a cutting-edge tool for crowd control, operates in a manner that blends science fiction with reality. Its primary function is to provide a controlled and safe method for managing large groups of people, particularly in situations that could escalate quickly. It’s not just another piece of equipment; it's a highly specialized energy weapon designed to handle volatile scenarios.

The Pressure Shield's operation is as intricate as it is impressive. Each shield is equipped with a sophisticated system known as the Pressure Shield Operating System (PSOS). This system is responsible for ensuring the shield is used correctly and effectively. Before the shield can be fired, the PSOS performs a series of checks. It authenticates the operator's RFID card, confirms a secure hand grip, and ensures the shield is in the correct orientation. These precautions are crucial as they prevent the shield from being taken and used against its operator.

Once these checks are complete, the PSOS activates various sensors, including a forward-facing proximity sensor. This sensor continuously reports the distance to the nearest targets and ensures the shield doesn’t fire if the target is too close. It also verifies that the fuel cartridge is properly engaged and that the shield's orientation is appropriate. This high level of security underscores the sophistication of the technology and the importance of proper use.

The Pressure Shield’s targeting capabilities are equally advanced. Operators can choose between different targeting methods based on their needs. The simplest method doesn’t require any additional equipment; the operator can point the shield at a target and fire. For more precise targeting, advanced options include a heads-up display (HUD) integrated into the shield. This HUD provides real-time feedback, displaying the beam's extent, target points of interest, and the effectiveness of various effects, such as warning, stunning, or incapacitating.

In more complex scenarios, such as crowd management, the Pressure Shield can be used in "cohort mode." This mode allows multiple shields to work together in a coordinated effort. The shields can be organized into a master/slave network or a distributed network, depending on the situation. In a master/slave network, a designated master shield controls the overall beam pattern and transmits instructions to the slave shields. This setup allows for precise coordination and effective crowd control.

Alternatively, in a distributed network, each shield independently calculates its own beam pattern and communicates with neighboring shields. This networked approach offers flexibility and adaptability, as shields adjust their patterns based on the information shared by their peers. This method allows for dynamic adjustments, ensuring that the crowd is managed effectively even as situations change.

One of the most intriguing aspects of the Pressure Shield is its ability to create "safe corridors." These are areas free from the pressure effects of the shield, allowing safe passage for individuals through a potentially dangerous situation. The master shield in a network can designate these corridors, ensuring that they are correctly placed and effective. Shields in a distributed network can also work together to create these safe passages, adjusting their patterns in real-time to accommodate the needs of the situation.

These technologies raise intriguing questions about the broader applications of energy weapons and advanced crowd control systems. The Pressure Shield is just one example of how energy-based technologies are being utilized for more than just theoretical applications. Its integration into crowd management strategies suggests that similar technologies could be employed in other areas of security and defense.

As we delve deeper into the capabilities of such energy weapons, it's worth considering what other hidden technologies might be out there. If a sophisticated tool like the Pressure Shield remains relatively unknown, what other advancements in energy weaponry and control systems are being developed behind closed doors? The idea that there could be more advanced or secretive technologies in use is both fascinating and a little unsettling.

The existence and deployment of such advanced technologies challenge our perceptions of security and control. They highlight a level of sophistication in crowd management and public safety that goes beyond traditional methods. This prompts us to question what other technologies might be kept from the public eye and how they might be used in ways we haven’t yet imagined.

Information Is sourced from Googe Patents. This is Patent #US20110235467A1

Owner name: RAYTHEON COMPANY, MASSACHUSETTS