Conventional 2D neural networks can only process one single image at a time, which may affect the image continuity and lead to missing structural details around lesions. In contrast, 3D neural networks support volumetric data input, maintaining data continuity while improving reconstruction speed, accuracy, and reliability.

Leveraging a million-level data training set across diverse clinical scenarios, DELTA delivers whole-body low dose imaging with fine anatomical details.

During the training of neural networks, data propagation and correction are crucial factors for algorithm accuracy. Traditional network structures involve single-layer data propagation, whereas the specialized network design enables dense connections and efficient data propagation between different layers of network, preserving image details even at low radiation dose.

uCT 780 features the innovative uAI Vision 3D camera that enables an AI-empowered workflow. The uAI Vision provides an efficient, standardized and personalized scanning experience for each patient.

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The native temporal resolution, dictated by rotation speed, directly affects the quality of the raw data collected. The uCT 780 offers a native temporal resolution of 150 ms with a 0.3s rotation speed, helping to enhance image quality at high heart rate.

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uCT 780 with dynamic pitch technology enables seamless coronary and vascular imaging by rapidly switching between small-pitch ECG-gated and regular-pitch non-gated scan within a single contrast agent injection.

The Z-detector utilizes fully-integrated design for noise reduction with 0.5 mm fine detector units, which helps to enhance spatial resolution and optimize cardiac CT image quality.

For CT systems with 4cm detector coverage, capturing the entire heart requires multiple cardiac cycles, each with an optimal phase, particularly in cases of irregular heart rhythms. CardioXphase enhances overall coronary artery image quality by independently selecting the optimal phase for each cardiac cycle.

DELTA enhances cardiac CT imaging by reducing noise and improving low-contrast detectability, leading to better visualization of anatomical details such as soft plaques in coronary CT scans.

The dynamic perfusion technique provides a wider perfusion scanning range than the detector coverage, which is capable of delivering whole-brain functional information within the 2-second cycle time.

uCT 780 acquires dual-energy CT data by switching kV settings between consecutive rotations, which can reduce spectral blurring during transitions and improve spectral separation.