DART: Implicit Doppler Tomography for Radar Novel View Synthesis

DART proposes a novel method, Doppler Aided Radar Tomography, inspired by Neural Radiance Fields, to synthesize radar range-Doppler images and create high-quality tomographic images.

Abstract Simulation is crucial for radio-frequency system designers. DART proposes a method using radar-specific physics for novel view synthesis. Introduction Miniaturized mmWave radar chips are becoming more common. Simulation is essential for testing new radar systems. Novel View Synthesis Neural Radiance Fields have revolutionized view synthesis. DART applies a similar approach to mmWave radar imaging. Key Challenges Radar wave propagation presents challenges for rendering. DART overcomes these challenges by choosing a radar representation space. Contributions DART formulates the problem of radar novel view synthesis. The method outperforms state-of-the-art baselines in radar rendering. Limitations DART's method is limited to static scenes and requires accurate velocity estimates. Related Work Model-based and data-driven approaches are common in radar simulation. Machine Learning Methods in Radar Machine learning is applied to radar problems for improved performance. Neural Radiance Fields NeRFs have inspired efforts to apply similar principles to other sensors. DART: Doppler-Aided Radar Tomography DART addresses challenges in radar view synthesis using a novel approach.

DART는 레이다 범위-도플러 이미지를 합성하는 새로운 방법을 제안합니다. DART는 고품질 토모그래픽 이미지를 생성하기 위해 레이다 특정 물성을 내재적으로 학습합니다.

"DART synthesizes superior radar range-Doppler images from novel views across all datasets." "DART is not simply memorizing the input data, but is in fact learning the geometry and material properties of the scene."