Approved Tech Dankaia Virkenn's Cybernetic Left Hand

[Extinct]

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SPECIAL FEATURES

• Enhanced Strength
  
  • The cybernetic prosthetic hand is extremely strong, in terms of crushing power. The hand is capable of crushing most known alloys, metals, and materials with minimal effort.
• Digital Lockpick
  • The hand's middle appendage contains a few hidden small tools inside, that are retractable as needed, which aids in cracking both electronic and physical locks.
• Cyberscanner Palm
  • Utilizing a scanner located on the palm of the hand, it can collect data such as detecting motion, life-forms, energy signatures, cracks and fissures in structures, as well as identifying metals, alloys, and materials. All the data and information can be reviewed through the miniature holoprojector on the hand's palm.

STRENGTHS

• Multipurpose
  
  • The cybernetic hand's strength is in its brutal versatility: its crushing grip can shatter bone or steel alike, a concealed tool in the middle finger allows precision lock-picking, and embedded micro-sensors scan multiple data layers simultaneously, projecting detailed readouts for tactical analysis or investigation.

WEAKNESSES

• Tech Fortified
  
  • The cybernetic hand, despite its high-end engineering, remains notoriously vulnerable to nullification and suppression fields; both from tech-based devices and Force-based abilities, its precision servos and neural relays possibly collapsing the moment any dampening signal disrupts the electronics of the hand.

DESCRIPTION

Menendahl Cybertronics engineered the cybernetic hand as a pinnacle of adaptive technology, custom-built for Dankaia Virkenn after the accident that severed her natural limb. The project was classified and conducted in a private, high-security facility, combining state-of-the-art robotics with neural interfacing algorithms capable of reading and interpreting subtle cortical signals. The design emphasized both raw power and precision: actuators capable of exerting crushing force were paired with micro-tools, retractable sensors, and multi-layered data scanners, all integrated seamlessly into a humanoid form. The hand's neural mesh was designed to sync directly with Dankaia's motor cortex, translating intention into action without the lag or clumsiness typical of earlier prosthetics.

The surgical procedure to install the limb was a delicate orchestration of cybernetic engineering and neurosurgery. First, surgeons and neural engineers exposed the residual nerve endings and prepared the forearm's bone and musculature to serve as anchor points for the prosthetic's exoskeletal interface. Microelectrodes were implanted along each nerve strand, linked to the hand's adaptive interface, allowing the limb to interpret thought patterns as motion commands. Hydraulic lines and servomotors were embedded into the forearm's structural matrix, carefully threaded to preserve remaining soft tissue while providing the necessary mechanical strength.

Once physically installed, Dankaia underwent an intensive calibration phase. The neural interface was trained through a combination of thought exercises and simulated tasks, gradually increasing in complexity, from simple grips to high-precision manipulations like lock-picking and tactical scanning. The system also incorporated biofeedback loops, allowing the prosthetic to adjust in real-time to her muscle tension, grip force, and neurological impulses. By the end of the procedure, the cybernetic hand was not just a replacement limb but an extension of Dankaia herself: a hybrid of human intention and technological might, capable of feats that far surpassed any natural hand.

• Material:
  • Songsteel
  • Duralumin Wiring
  • Duralumin-based Electronic Components

 

[Darth Prazutis]

Under Review.

 

[Darth Prazutis]

Extinct

Looks good. Approved.