GNU Gluco Control (ggc) helps you to manage your diabetes. You will find detailed tables, diagrams, and statistics. You can select between MySQL, PostgreSQL, ODBC (in Windows), or a text file to store all the data. It also allows you to download data from the GlucoCard BloodGlucose Meter.
GATE is a software package dedicated to numerical simulations in medical imaging and radiotherapy. It supports simulations of Emission Tomography (Positron Emission Tomography (PET) and Single Photon Emission Computed Tomography (SPECT)), Computed Tomography (CT), and Radiotherapy experiments. It makes it easy to use existing Monte Carlo simulation packages according to the requirements of a simulation. It allows accurate description of time-dependent phenomena such as source or detector movement and source decay kinetics. It includes well-validated physics models, geometry modeling tools accommodating complex scanner geometries, models for detector electronic response, and efficient visualization utilities. Modelling of CT scans and calculation of dose can also be performed.
ProActive is a Java library for parallel, distributed, and concurrent computing as well as mobility and security in a uniform framework. It provides a comprehensive API and a graphical interface and is based on an Active Object pattern, a uniform way to encapsulate a remotely accessible object, a thread as an asynchronous activity, an actor with its own script, a server of incoming requests, a mobile and secure agent, and a component with server and client interfaces. It simplifies the programming of applications distributed over a LAN, clusters, an intranet, or Internet GRIDs.
CellProfiler is a system for analyzing cell images. It is designed for biologists without training in computer vision or programming to make quantitative measurements of cells in thousands of images automatically. It is implemented using Matlab, but compiled standalone versions are available.
The Medical Imaging Interaction Toolkit (MITK) is a C++ class library which aims at supporting the development of leading-edge medical imaging software with a high degree of interaction. It includes a QT-based demo application showing level set segmentation, volumetry, and a step-by-step tutorial. It combines VTK, ITK, and the pic-based-libraries of the Div. Medical and Biological Informatics of the DKFZ, and adds those features that are most important for developing interactive medical imaging software covered neither by VTK nor ITK.
RTLab is an RTLinux/RTAI-based data acquisition and control application. It is designed to help experimenters design and implement their hard realtime control experiements using higher abstractions than the services offered by RTAI or RTLinux. It is split into two parts. One is a user-space series of C++ classes (written for Qt) which implement a reference application called DAQSystem which is designed to acquire analog input voltage data and display it on the screen. DAQSystem communicates with rtlab.o, the realtime kernel module which is the second part of RTLab. The rtlab.o realtime kernel part is a kernel module that loads into RTLinux or RTAI and is responsible for driving COMEDI hardware for the purposes of data acquisition and realtime control. The module is extensible and features a 'plugin' architecture so that scientists who are savvy C programmers can easily leverage the existing framework for their own custom experiment logic. Experiment logic is specified by writing a kernel modules that gets called back for each scan rtlab.o acquires from the COMEDI hardware. In addition, data visualization and storage facilities exist in user space so that experimenters can instantly see graphical plots of their analog input data as it comes in from the hardware.
libphidgets is a user-space access library for the Phidget devices. It provides a generic and flexible way to access and interact with the Phidgets, and comes with all the advantages of a user-space library. It is based on libhid (which is based on libusb), thus it requires no HID support in the kernel. Furthermore, it aims to support all operating system supported by libusb/libhid: Linux, BSD, OS X, and Windows.
Aeskulap is a medical image viewer. It is able to load a series of special images stored in the DICOM format for review. It is able to query and fetch DICOM images from archive nodes (also called PACS) over the network. The goal of this project is to create a full open source replacement for commercially available DICOM viewers. It is based on gtkmm, glademm, and gconfmm and designed to run under Linux. Ports of these packages are available for different platforms. It should be quite easy to port It to any platform were these packages are available.