SmartUs TELEMED ULTRASOUND DIAGNOSTIC SYSTEM INFO SmartUs is a high performance Echo Color Doppler beamformer with PC based software driven architecture: a versatile platform with great potential for expansion, developed for applications in Abdominal, Vascular, Cardiology, Obstetrics and Gynecology, Urology, Musculoskeletal, Endocrinology etc. SmartUs beamformer includes the latest technological innovations developed by Telemed: Spatial Compound Imaging, B Steer Imaging, Virtual Convex, Tissue Harmonics, Cross Beamforming, one touch Image Optimization, NeatView Advanced Speckle Reduction Imaging. Convex, Linear, Sector Phased Array and Endocavitary scanning modes, flexibility and simplicity of use, advanced focusing, precision in measurements and the great possibilities of communication and network interconnection make SmartUs beamformer an excellent tool for a high profile diagnostic Ultrasound. The wide range of wideband and high density transducers with a wide frequency range from 1.5 to 18 MHz allows excellence in images quality.
A new concept in Ultrasound SmartUs is a high performance system for diagnostic ultrasound, based on an innovative technological platform working as a standard personal computer peripheral and it represents the latest advancement made by Telemed R&D. Fully PC Based software driven Technology Platform. The advanced processors ( i3 i5 i7 dual core and quad core ) installed on modern PCs, the display of last generation with IPS, PLS or retina technology, the full compatibility with Windows XP, Windows 7 and Windows 8 (32 64 bit) Operating Systems, allow high profile performance. Obsolescence time much longer than traditional ultrasound systems which adopt older microprocessors and operating systems. Continuous and freeware software update from Internet. In addition to traditional formats, images and videos can be saved and stored in raw data formats TPD and TVD which allow to work in post processing using advanced functions (Speckle Reduction, zoom, measurements and calculations, Gamma control, Palettes, reporting etc.). Telemedicine and advanced service applications with remote control of the ultrasound system.
Scanning modes B B+B 4B B+M M B steer Compound Trapezoid Color Doppler (CFM) Power Doppler (PDI) Directional Power Doppler (DPDI) Pulsed Wave Doppler (PWD) Continuous Wave (CW) B+PWD (Duplex) B+CFM/PDI/DPDI+PWD (Triplex) Tissue Harmonic Imaging with Pulse Inversion (ITHI) Panoramic Imaging PanoView (optional) 3D Rendering (optional) Technologies Wide range of Convex, Linear, Phased Array, Intracavitary high density and high performance transducers from 1.0 to 18 MHz with High speed Digital Processing scan converter Digital Doppler multi beam processing Multiline Technology THI (Tissue Harmonic Imaging) Advanced Speckle Reduction Imaging NeatView, PureView and QuickView (8 algorithms each) Cross Beamforming Spatial Compound Imaging B Steer Imaging Trapezoid Imaging Virtual Convex User programmable presets for different diagnostic needs Images and video formats saving : AVI, JPG, BMP, PNG, TIF, XLSX, DCM (DICOM uncompressed), DCM (DICOM JPEG RGB/YBR), DCM (DICOM JPEG RGB/YBR Video), TPD (Telemed Picture Data), TVD (Telemed Video Data) Raw data formats TPD and TVD allows post processing, measurements and calculations, zoom, speckle reduction imaging, gamma control on stored images and video. Programmable cineloop up to 480 Mb reporting and storing software Printing with PC printer or USB thermal printer Direct e mail function for sending reports, images and videos Telemedicine with real time remote control for diagnostic consultation and technical support Freeware software updgrades from the Internet Ultrasound system control using mouse, trackball, PC keyboard, touch screen, traditional ultrasound console (optional)
Advanced Speckle Reduction Imaging: NeatView technology NeatView is an adaptive algorithm that recognizes the difference between real targets and artifacts and smooth regions with no features or edges. It enhances edges and borders and improves contrast resolution by increasing signal to noise ratio and does not eliminate any real features, so the diagnostic information is preserved. NeatView is also flexible enough to provide different levels of speckle reduction and edge enhancement suitable for various clinical situations. It allows to obtain uniform images optimizing grey scale for soft or more contrasted images. hardware accelerated processing with no additional CPU usage or frame rate loss flexible algorithms optimized for different probes no resolution loss