Revolutionizing Surgical Data Collection and Processing

Enhancing precision and efficiency in surgical environments through advanced multi-modal fusion technology.

Innovating Surgical Data Solutions

We specialize in data collection, multi-modal fusion models, and real-time optimization for enhanced surgical performance and adaptability in diverse scenarios.

An ophthalmology device, known as a phoropter, is mounted on a mechanical arm against a teal-colored wall. The device has numerous dials and lenses used for vision testing.

An ophthalmology device, known as a phoropter, is mounted on a mechanical arm against a teal-colored wall. The device has numerous dials and lenses used for vision testing.

A pair of hands wearing surgical gloves holds a translucent, round, gel-like object, likely a medical implant. The background features a fabric that resembles surgical scrubs.

A pair of hands wearing surgical gloves holds a translucent, round, gel-like object, likely a medical implant. The background features a fabric that resembles surgical scrubs.

About Our Company

Our mission is to improve surgical outcomes through advanced data processing, algorithm optimization, and real-time performance enhancements in various surgical environments.

Model Construction

Building multi-modal fusion models to enhance force perception accuracy through deep learning and optimization.

A modern medical device with large mechanical arms, likely used for precise medical procedures. It is situated in a clinical environment with clean, white walls and a tidy appearance. The equipment is labeled 'CyberKnife', indicating its purpose in advanced medical treatments.

A modern medical device with large mechanical arms, likely used for precise medical procedures. It is situated in a clinical environment with clean, white walls and a tidy appearance. The equipment is labeled 'CyberKnife', indicating its purpose in advanced medical treatments.

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 Construction

Building multi-modal fusion models for enhanced force perception.

A medical imaging device with a monitor displaying a user interface featuring multiple icons and buttons. The device is labeled 3D OCT Maestro by Topcon. There is also a black adjustable arm and other medical supplies in the background.

A medical imaging device with a monitor displaying a user interface featuring multiple icons and buttons. The device is labeled 3D OCT Maestro by Topcon. There is also a black adjustable arm and other medical supplies in the background.

Real-Time Optimization

Improving algorithm response speed through advanced computing technologies.

Constructanefficientmulti-modalfusion-basedforceperceptionreconstruction

algorithmtoenhancetheprecisionandsafetyofminimallyinvasivesurgery.

Revealtheadaptabilityandstabilityofthemulti-modalfusionalgorithmindifferent

surgicalscenarios,promotingitswidespreadapplication.

Optimizethecomputationalefficiencyandreal-timeperformanceofthealgorithm,

providingtechnicalsupportforminimallyinvasivesurgery.

Verifythepracticaleffectsoftheforceperceptionreconstructionalgorithmthrough

clinicalexperiments,providingpracticalguidanceforthemedicalroboticsfield.

Proposepromotionstrategiesfortheforceperceptionreconstructionalgorithmto

acceleratethepopularizationandapplicationofminimallyinvasivesurgeryinthe

medicalfield.