Gray Raxis
Blind and Broken
OUT OF CHARACTER INFORMATION
- Intent: Create a terraforming tool specialized for use on the land and air.
- Image Source: Here
- Canon Link: N/A
- Restricted Missions: N/A
- Primary Source: N/A
- Manufacturer: Raxis Independent Designs
- Model: N/A
- Affiliation: Closed-Market, Mandalorian Empire , Clan Raxis
- Modularity: Yes- Size, terraforming focus (land or air), power source, programs
- Production: Mass-Produced
- Material: Silicar, Reinforced Alusteel, Duraplast, Electronic components
- Advanced filtration system
- Range of sizes from 2 meter long to 2 kilometer long
- Built in power generator with ease of access
- Advanced data gathering, storage, and analysis programs
- Remote networking system
- Terraforming- The TELAR system is a highly advanced terraforming machine. Due to the mixture of the advanced filtration system and advanced programs built into it there is little it can't fix over time. It is able to run remotely as well if need be due to these and turn a desolate planet into a habitable one eventually. The ability to connect them up together or with other systems, such as it's aquatic counterpart, it can remotely share data to cover not just local area data but global data as well. This also makes it so an entire system of them can adjust their systems in sync with each other to maximize their effectiveness on both scales without causing problems such as the global scale ruining the local or vice versa.
- Land and Air- The TELAR system is a terraforming system that can handle both the land and air. It is able to remove harmful elements and add helpful ones to both the ground and air so it can do the job of two units at once. Thanks to it's high modularity as well, it can be switched to focus on one area or the other and do the work of 2 units dedicated to that job.
- Sturdy- The TELAR system is built to handle the abuse of more hostile environments. It achieves this by combining the use of light weight but strong reinforce alusteel coupled with silicar. The two materials work together to cover what the other has issues handling. This means it can weather hazards better and for longer than other terraforming units could hope to.
- Maintain- The TELAR system is advanced and sturdy, but with it comes draw backs. The system can operate remotely but still requires regular check ups. The filters need to be switched out and helpful materials replaced on a regular basis. If this is not done, the system can begin to see a dramatic decline in it's effectiveness. If it goes on long enough without either of these actions as well it could cause the system to be overwhelmed and be damaged beyond repair.
- Energy- The TELAR system uses many advanced features and because of this is requires a lot of energy to keep running. Fresh power cells and fuel must be regularly added. If this is not done the built in power generator will stop functioning and shut the whole thing down. Without power it is little more than worthless scrap.
With Mandalore currently dealing with major environmental problems, Raxis Independent Designs decided to focus all their attention onto correcting them. Many projects were proposed and of them the concept of a terraforming machine was picked up. Instead of handling it in the standard way, RID decided to split up the work and so the TELAR system was born. It stands as the land and air counterpart to it's aquatic cousin the TEA system. Many prototypes were designed and ultimately the TELAR system was born.
The TELAR system is both simple and complex in it's design. The simple aspect of it is in how it was physically built. It's frame and hull is created from a layering silicar and reinforce alusteel on top of each other. What this did was allowed the desired sturdiness of both to come through while protecting the individual materials from their issues. By using silicar, the alusteel is protected from environmental hazards such as corrosives, electricity, heat, and cold as well as allowing the alusteel to feel less strain because the silicar absorbs it. The alusteel in turn protects the silicar from being damaged by focused forms of impact such as blaster bolts or small rocks moving at high speeds, such as volcanic eruptions. The electronic components are inside of this highly protective case along the durable frame and are free to do their job safe from the outside conditions. A duraplast layer was then added to the outside to further protect both the silicar and alusteel. The last thing done was that a power generator was added inside with an easy to access panel so it could be repaired, maintained, or replaced.
The complex aspect of the TELAR system's design comes in with what the electronic components do. Several systems dealing with data. A powerful processor was put in to run multiple programs at once quickly and large amounts of storage to store all of that data. The larger the system size as well the more of both it has available. It was given the ability to remotely connect to a network as well so that it could hook up with other TELAR and TEA systems. This allows it to not only share data but share the work of processing it. It also allows for every unit to adjust to the conditions and move towards the most effective approach for handling it's tasks on both the local and global scales. The last part to this internal system that was added was the filtration system. It allows for large volumes of materials to pass through and be adjusted to the needs of the terraforming effort. It also is where the data being used is collected from and as such is connected with the rest of the systems. This network is all interconnected to the point of being complex where the physical design was more simple.
The TELAR system is not cheap. The use of silicar in it alone jacks up the price tag on purchasing it, but it also has many advanced systems that are expensive as well. This causes the upfront cost to be pricey even at cost, but it also deals with being expensive to keep running. The energy and maintaince demands mean that it requires new materials on a regular basis, which is already not cheap, and someone has to replace them. This means labor costs are higher for the system than others and combined with the other issues means it relies on it's raw power and effectiveness to be picked over others.