The Future of Modern Healthcare: Remote 3D Surgery Technology

Challenge

Modern healthcare faces significant challenges. First and foremost, there are constraints on healthcare resources, including the technical proficiency of physicians and the surgical equipment available in hospitals. With the growing prevalence of 3D medical robots, telesurgery through the remote control of robots has garnered widespread attention, making it a hot topic in the medical field.

However, this technology also comes with challenges, with one of the major issues being the latency in remote image transmission. To achieve real-time surgery experiences akin to in-person surgery, it's imperative to maintain the delay from the camera to the surgeon's eyes within 70 milliseconds, which is currently one of the primary challenges in the field of remote surgery.

Solution 

Now, let's delve deeper into our technical solution. We offer a comprehensive integrated solution based on the NVIDIA's Jetson Orin™ platform. Through low-latency HDMI/SDI DMA capture technology, we ensure that 3D camera images enter the system with minimal latency, as low as 15 microseconds. Our SDK also integrates NVIDIA's state-of-the-art AV1 encoding and decoding technology to enhance image quality while conserving bandwidth. Combined with YUAN’s unique ultra-low-latency SkyLink X network transmission technology, the overall system achieves astonishingly low Glass-to-Glass latency, well below 50 milliseconds.

Additionally, we leverage the full potential of NVIDIA's Jetson AGX Orin™ platform, which supports AI computation capabilities of up to 275 TOPS. This capability is not only used for real-time assistance to physicians in assessing local tissue but also for instant image depth calculations, further enhancing the performance of 3D robotic arms and significantly improving the quality of surgical procedures.

System Architecture Diagram

Key Benefits

Reduced Development Cost: Our software and hardware services offer a complete 3D image capture, encoding, streaming, and display technology workflow. This significantly reduces the time and financial investment required by developers.

Achieving Ultra-Low Latency Image Transmission: Our SkyLink X technology achieves ultra-low latency remote image transmission, ensuring that surgical teams can instantly receive and manipulate images within 50 milliseconds. This greatly enhances the feasibility of telesurgery procedures.

Precision and Safety: Our solution integrates AI technology, providing real-time assistance to physicians in image evaluation, thereby enhancing the quality and safety of surgical procedures.

Overcoming Distance: Lastly, our technology eliminates the constraints of geographic distance, enabling patients to access high-quality remote medical services without the need for extensive travel.

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