An acronym for “Mecha Integrated Anti-Resistance Array”, the MIARA is ground mobility system intended for use by legged mecha and power armor. First conceptualized by Mazaki Seina in YE 44, the MIARA went into full production for the Yu-M1-2B Series "Molly" Light Mechanized Power Armor in YE 45. Production rights to the MIARA were given to Ketsurui Zaibatsu for potential inclusion in any future KFY power armors or bipedal mecha, though Yugumo Corporation retained the ability to use the technology internally or sell it on the civilian market.
Year of Creation | YE 45 |
Designer | Yugumo Fleetworks, Mazaki Seina |
Nomenclature | See: Nomenclature Catalog |
Manufacturer | Yugumo Corporation |
Fielded by | Yugumo Corporation, Star Army of Yamatai |
Availability | Mass Production |
Price | Varies |
Dazzled by the Glide Boosting1) capabilities of mechanized frames in the New Dusk Conclave, Mazaki Seina sought to create a system which would allow power armors and bipedal mecha utilized by the Star Army of Yamatai and Yugumo Corporation to replicate the maneuver, due to its benefits in simultaneously maintaining speed, agility, and a stable firing platform. To that end, Seina created a design based around an array of micro-scale vibration emitters placed in the lower legs and feet of a mecha or power armor, used to reduce or increase friction at will.
The MIARA was first tested in early prototypes of the Molly. The system showed promise during these trials, earning the right to further development and funding for inclusion in the production version of the Molly and in future bipedal mecha or power armor designs. With the full production of the Molly beginning in YE 45, the MIARA would first see use in the field by the Star Army of Yamatai during testing.
The MIARA is based around an array of micro-scale vibration emitters placed in strategic locations on the lower legs and feet of a mecha or power armor. The vibration output of this array can be modulated by the computer or the user directly, increasing or decreasing friction as needed. However, more often than not, the output is geared towards minimizing friction to facilitate Boost Skating maneuvers via the mounting platform's propulsion systems.
When used with CFS, the onboard computer system creates openings in the CFS at the bottom of the feet to allow for unobstructed vibration output against the surface the power armor or bipedal mecha is moving on.
While the MIARA's computer takes much of the weight from the user, Boost Skating2) is still known to be extremely technically demanding. It is recommended that users have at least a hundred hours of practice in simulations (or have received the rough equivalent in coaching or mental download) before attempting skating maneuvers in live combat. However, with practice, Boost Skating will become ingrained. Advanced users can do things such as firing weapons, dodging, traversing rough terrain, and moving at dazzling speeds while skating with instinctive ease. In addition, advanced users often prefer to tune down computer modulation in order to have a more direct, precise control of the friction levels for enhanced performance, a practice akin to turning off traction control in a race car or assists in a flying simulator. For most, it is only a matter of practice, persistence, and dedication to reach such a level of mastery.
By itself, the MIARA is not capable of independent movement as the system only serves to increase or reduce friction. As such, a mounting platform must have some form of drive or motive system to generate propulsion. This can include (but may not be limited to) CFS, conventional thrusters, or gravitic drives. A platform must also have KAIMON, Armor Integrated Electronics System (AIES), Compact Integrated Electronics System (CIES), or an equivalent computer system to regulate the strength of the micro-scale vibration emitters as needed, based on data from the terrain sensors and the neural feedback from the user. However, very experienced users may take a more direct role in regulating this system. Finally, the MIARA requires a direct neural link to interface with the user, whether via SPINE, SQUID, or a comparable system.
The MIARA includes a suite of short-range terrain composition sensors which are designed to assess the terrain in the immediate area of the platform, in order to modulate the output of the vibration emitters based on the incoming terrain. As these sensors are passive, they do not put out any emissions and are relatively stealthy. In addition, while the MIARA is capable of handling rough terrain, the sensors will give the user prior warning before going over potentially hazardous areas.
The MIARA has cost that varies by application:
Tier | Type | Factory Cost | Retrofit Cost |
4 | Light Armor | 2000 KS | 2500 KS |
5 | Medium Armor | 2500 KS | 3000 KS |
6 | Heavy Armor | 3000 KS | 3500 KS |
7 | Light Mecha | 6000 KS | 7000 KS |
8 | Medium Mecha | 7000 KS | 8000 KS |
9 | Heavy Mecha | 8000 KS | 9000 KS |
Catalog of Standard Product Nomenclature System.
Immortal Cyan created this article on 2022/11/13 16:18. Approved by Wes on November 21, 2022.
Products & Items Database | |
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Product Categories | subsystems |
Product Name | MIARA |
Nomenclature | See Nomenclature Catalog |
Manufacturer | Yugumo Corporation, Yugumo Fleetworks |
Year Released | YE 44 |