Matt the Radar Tech
ꜰɪxɪɴɢ ᴛʜᴏsᴇ ʀᴀᴅᴀʀs ᴀɴᴅ sᴛᴜꜰꜰ
CS-LASER COMMUNICATION PROJECTOR
OUT OF CHARACTER INFORMATION
- Intent: To create a communication method that can bypass jamming and EWAR attempts, for the Chiss Ascendancy
- Image Source: systemagaming.com
- Canon Link: Modulated Laser, Comm Laser
- Restricted Missions: N/A
- Primary Source: N/A
- Manufacturer: Chiss Ascendancy
- Model: CS-334 Laser Communication Projector
- Affiliation: Chiss Expansionary Defense Fleet
- Modularity: Yes; additional sub-systems or routines can be incorporated into or around this packages systems
Production: Minor
- Material: Hiridiu Crystal, Duraplast, Encryption Module, electronic and communication components
- Features two specialized methods of communication, which are capable of bypassing EWAR and stellar jamming effects, using military-grade components and systems
- Two methods of communication in combat, which can bypass and/or pierce jamming sources and EWAR attacks - compressed single frequency and infrared light-signal modulation.
- Utilizes powerful Hiridiu crystals to amplify communication strength and capacity for jamming avoidance.
- Components can be damaged, if not suitably protected, which can cause operation failure.
- Requires functioning light-signal demodulator to translate communication.
- Short-range communications only, around the size of a battlefield.
- Requires line-of-sight to deliver communications.
The CS-Laser Communication Projector is a fail-safe for the Chiss Expansionary Defense Fleet, should a battlefield be either jammed or EWAR attacked by enemy or friendly forces. This allows ships or units to continue to communicate, so long as they are functional and have line-of-sight with one another. The amplification provided by the Hiridiu crystals allows for a considerable boost to projection power, and encryption modules ensure a more secure form of specialized communication.
The first method compresses all vocal range information into an encrypted compressed single multi-layered frequency communication signal; this is then received by a corresponding laser communication projector, and reverted back into full vocal spectrum, through a process of frequency separation and amplification of sound variances, before being presented in spoken form with a decoder module. The second method acts as a redundant message-duplicator, and converts any vocal range information into collimated infrared light beams, which rapidly project toward corresponding laser communication projectors, and are reconstructed with a module that uses light-conductive filaments and beam-pattern reconstruction sent to a decoder for written visual confirmation.
This is strictly a Chiss fleet applied system, no civilian access.
