Research Tools
B to Lines, ver. 1.1.4:

  • this utility converts one B mode TVD/TPD file to multiply BIN files in the same folder
  • BIN file stores bytes of one scan line
  • useful tool for research purposes
  • available source code of this application

  • utility for configuring of MicrUs synchronisation port
  • utility for configuring of SmartUs synchronisation port
  • manuals
ArtUs Synchronisation Package:


ArtUs Compact Synchronisation Package:


  • utility for configuring of ArtUs Compact synchronisation input/output signals
  • for ArtUs CEXT-1H with I/O module
ArtUs RF Data Control for C++, 32/64-bit, ver. 1.9.4:

  • the utility allows you to control the majority of ultrasound scanning parameters, receive beamformed RF data in real-time and record this RF data to file
  • source codes
  • for ArtUs EXT-1H/2H with RF module (supports beamformed RF data)
  • for ArtUs USS-2H (supports beamformed and channel RF data)
  • utility supports beamformed RF data. To access both beamformed and channel RF data, use ArtUs RF Data Control II for C++, ver. 2.x.x.
ArtUs RF Data Control II for C++, 64-bit, ver. 2.2.1:

  • the utility allows you to control the majority of ultrasound scanning parameters, receive beamformed and channel RF data in real-time, and record this RF data to file
  • source codes
  • for ArtUs EXT-1H/2H with RF module (supports beamformed RF data)
  • for ArtUs USS-2H (supports beamformed and channel RF data)
  • utility supports both beamformed and channel RF data
ArtUs RF Data Control for Python, MATLAB and LabVIEW, 64-bit, ver. 1.0.1:


  • utility allows to control majority of ultrasound scanning parameters, receive beamformed RF data in real-time and record RF data to file
  • source codes (C++ DLL for calling TELEMED SDK functions Python, MATLAB and LabVIEW sample programs)
  • for ArtUs EXT-1H/2H with RF module (supports beamformed RF data)
  • utility supports beamformed RF data

  • RF tools, MATLAB scripts for import and revision of annotated beamformed RF data offline. Collection of scripts illustrating conventional RF signal processing steps, which are typically used in the B mode image formation engine is provided as well
  • beamformed RF data bin files samples
  • source codes
Channel Data Viewer, ver. 1.0.1:


  • possibility to review recorded channel RF data offline
  • illustration of delay-and-sum (DAS) beamformer (weighting coefficients, speed of sound value, active channels, sampling period value are controllable).
  • channel RF data bin files samples
  • source codes
TELEMED Real-time Imaging for the Research, ver. 1.0.2:


  • Dynamic Link Library (DLL) which allows to call TELEMED SDK functions and to perform real-time ultrasound image data acquisition and imaging from the other programming platforms such as MATLAB, Python etc.
  • source codes
  • manual
  • supports all TELEMED scanners
MATLAB access to Echo Wave II, capture of the ultrasound data, ver. 1.0.0:

  • link between Echo Wave II and MATLAB, code example for grabbing ultrasound image data
  • supports all TELEMED scanners
Python scripts package, ver. 5:


  • Python RF data viewer (GUI) for import and review of annotated RF data offline.
  • RF data load script
3-rd party software
All TELEMED devices are supported by open-source software:

These software packages are dedicated for implementing tracked ultrasound systems also could be used for freehand 3D ultrasound acquisition, visualisation and elastography, acquisition of image data streams.