Challenging the multimodal ultrasound with GPU-based research ultrasound platforms
Old-school ultrasound was all about discrete modalities (B-mode, Doppler). Today, we prefer to combine multiple methods and advanced processing algorithms to extract more diagnostic data out of the raw RF ultrasound echoes. Thus, high-speed acquisition and processing of channel data have become a st...
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| Veröffentlicht in: | The Journal of the Acoustical Society of America 2019-10, Vol.146 (4), p.2902-2902 |
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| container_title | The Journal of the Acoustical Society of America |
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| creator | Lewandowski, Marcin Walczak, Mateusz Witek, Beata |
| description | Old-school ultrasound was all about discrete modalities (B-mode, Doppler). Today, we prefer to combine multiple methods and advanced processing algorithms to extract more diagnostic data out of the raw RF ultrasound echoes. Thus, high-speed acquisition and processing of channel data have become a standard feature of contemporary research systems. I will present our developments in the programmable and scalable ultrasound systems featuring GPU-based processing. The implementation of multimodal methods is enabled through a high-performance data streaming and software processing approach. We will look into GPU processing and how challenging real-time realization of the Software Defined Ultrasound paradigm can be. We will also discuss the many new opportunities and open-source tools the software approach nevertheless opens up, which can be used for both standard ultrasound processing and advanced post-processing (e.g., machine learning).The case-studies presented show how the platforms can be used as versatile research tools, as well as demonstrators for commercial introduction of the technology. A sneak preview of a 3-D-ready research system will conclude my talk. |
| doi_str_mv | 10.1121/1.5137070 |
| format | Article |
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Today, we prefer to combine multiple methods and advanced processing algorithms to extract more diagnostic data out of the raw RF ultrasound echoes. Thus, high-speed acquisition and processing of channel data have become a standard feature of contemporary research systems. I will present our developments in the programmable and scalable ultrasound systems featuring GPU-based processing. The implementation of multimodal methods is enabled through a high-performance data streaming and software processing approach. We will look into GPU processing and how challenging real-time realization of the Software Defined Ultrasound paradigm can be. We will also discuss the many new opportunities and open-source tools the software approach nevertheless opens up, which can be used for both standard ultrasound processing and advanced post-processing (e.g., machine learning).The case-studies presented show how the platforms can be used as versatile research tools, as well as demonstrators for commercial introduction of the technology. 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We will also discuss the many new opportunities and open-source tools the software approach nevertheless opens up, which can be used for both standard ultrasound processing and advanced post-processing (e.g., machine learning).The case-studies presented show how the platforms can be used as versatile research tools, as well as demonstrators for commercial introduction of the technology. 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Today, we prefer to combine multiple methods and advanced processing algorithms to extract more diagnostic data out of the raw RF ultrasound echoes. Thus, high-speed acquisition and processing of channel data have become a standard feature of contemporary research systems. I will present our developments in the programmable and scalable ultrasound systems featuring GPU-based processing. The implementation of multimodal methods is enabled through a high-performance data streaming and software processing approach. We will look into GPU processing and how challenging real-time realization of the Software Defined Ultrasound paradigm can be. We will also discuss the many new opportunities and open-source tools the software approach nevertheless opens up, which can be used for both standard ultrasound processing and advanced post-processing (e.g., machine learning).The case-studies presented show how the platforms can be used as versatile research tools, as well as demonstrators for commercial introduction of the technology. A sneak preview of a 3-D-ready research system will conclude my talk.</abstract><doi>10.1121/1.5137070</doi><tpages>1</tpages></addata></record> |
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| source | AIP Journals Complete; Alma/SFX Local Collection; AIP Acoustical Society of America |
| title | Challenging the multimodal ultrasound with GPU-based research ultrasound platforms |
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