Innovative Haptic Feedback Solutions

Enhancing surgical precision through advanced haptic technology.

Innovative Haptic Feedback Solutions

We specialize in data collection, model optimization, and real-time performance enhancement for haptic feedback systems in surgical environments, ensuring adaptability and precision through advanced technology.

A gloved hand operating a medical endoscope against a neutral background. The focus is on the handle, which has control buttons and knobs.
A gloved hand operating a medical endoscope against a neutral background. The focus is on the handle, which has control buttons and knobs.

Model Optimization

Utilizing deep learning technologies, we enhance model precision and efficiency through comprehensive algorithm optimization.

A hand wearing a blue glove is interacting with a touchscreen monitor. The device appears to be part of medical or laboratory equipment. The interface displays various settings and options.
A hand wearing a blue glove is interacting with a touchscreen monitor. The device appears to be part of medical or laboratory equipment. The interface displays various settings and options.
A close-up of hands using a small medical device with a blue tip to perform a procedure on a fingertip. A cotton pad is held nearby, suggesting a medical or testing context.
A close-up of hands using a small medical device with a blue tip to perform a procedure on a fingertip. A cotton pad is held nearby, suggesting a medical or testing context.

Data Collection

Collecting and processing haptic data for surgical environments.

A robotic hand in a bright teal color lies on a textured wooden surface. The design of the hand includes articulated joints and slits on each finger, suggesting functionality and mechanical sophistication.
A robotic hand in a bright teal color lies on a textured wooden surface. The design of the hand includes articulated joints and slits on each finger, suggesting functionality and mechanical sophistication.

Model Optimization

Improving precision and efficiency through algorithm optimization techniques.

gray computer monitor

Constructhigh-precisionhapticfeedbackmodelstoenhancetheoperationalprecision

anddoctorexperienceofsurgicalrobots.

Revealtheadaptabilityandstabilityofhapticfeedbackmodelsindifferentsurgical

scenarios,promotingtheirwidespreadapplication.

Optimizethecomputationalefficiencyandreal-timeperformanceofhapticfeedback

models,providingtechnicalsupportforsurgicalrobots.

Verifythepracticaleffectsofhapticfeedbackmodelsthroughclinicalexperiments,

providingpracticalguidanceforthemedicalroboticsfield.

Proposepromotionstrategiesforhapticfeedbackmodelingtoacceleratethe

popularizationandapplicationofsurgicalrobotsinthemedicalfield.

Haptics

Innovating surgical environments with haptic feedback technology.

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