Appunta is a Framework for the Android platform that allows us not only to easily show geopositional information to the user, but also to create new ways of showing this information or modifying the existing ones.
Basically, you have a set of POI (Points Of Interest) located in a map (thus, with a latitude, longitude, and optionally, an altitude), and you need to show these POI and their related information to the user.
Appunta allows you, out of the box, to represent this information in two different ways, a radar or an augmented reality view. But, you can modify these components to show data in other ways or create new ways of visualizing this information.
Appunta is Open Source and anybody can freely use it. So, what are you waiting for?
Intel® Threading Building Blocks (TBB) offers a rich and complete approach to expressing parallelism in a C++ program. It is a library that helps you take advantage of multi-core processor performance without having to be a threading expert. Threading Building Blocks is not just a threads-replacement library. It represents a higher-level, task-based parallelism that abstracts platform details and threading mechanisms for scalability and performance.
FUBAR uses the statistical technique "Kriging" to rescale images with an global geometric pattern, called the variogram.
The image can be infinitely rescaled: the estimates ('o' on the left figure) are calculated from five neighbouring samples of the source image ('+' on the left figure). The image is 'noisy' because each pixel is a realization of the estimated value. In other words, each pixel is a random value with a mean and a variance from the local distribution. By changing the variogram (press 'v') or the variance multiplier, it is possible to control that variance.
Clicking the left mouse button zooms in on the image and right-click zooms the image back out. Press SPACEBAR to accept the current realization as the 'source image' -this will reduce noise at small scales.
Katta is a scalable, failure tolerant, distributed, data storage for real time access.
Katta serves large, replicated, indices as shards to serve high loads and very large data sets. These indices can be of different type. Currently implementations are available for Lucene and Hadoop mapfiles.
* Makes serving large or high load indices easy
* Serves very large Lucene or Hadoop Mapfile indices as index shards on many servers
* Replicate shards on different servers for performance and fault-tolerance
* Supports pluggable network topologies
* Master fail-over
* Fast, lightweight, easy to integrate
* Plays well with Hadoop clusters
* Apache Version 2 License
Writing efficient user interfaces is the main maxim, here at Vimperator labs. We often follow the Vim way of doing things, but extend its principles when necessary.
Towards this end, we've created the liberator library for Mozilla based applications, to encapsulate as many of these generic principles as possible, and liberate developers from the tedium of reinventing the wheel.
This open source software project connects the world of java with TWAIN.TWAIN is an application programming interface standard used to access scanners & digital cameras ... .
This package was developed to scan an image in order to turn it into an *.sff file and then fax it.
How does it work ? What happens ?
1. On loading: jtwain.java loads it's C++ counter part, the library jtwain.dll.
2. jtwain.dll will load "TWAIN_32.DLL" and get a function pointer to the DSM (Data Source Manager) entry point (twain state 2).
3. If loading was successful jtwain.java creates a new thread that calls nstart in jtwain.cpp.
4. Due to the fact that twain is signalling events through the OS-dependent event queues, we need to set up an application window including it's wndProc callback function.
5. After that ninitLib will open the DSM (twain state 3). Now the DSM is ready to handle device specific requests.
6. The native thread is then entering the event loop and calling jtwain.cbhandleGetMessage whenever it receives an event.
7. The twain entry function must be called from within the native thread. In order to do that a command can be initiated from arbitrary java threads by calling ntrigger. This will cause the native thread to call jtwain.cbexecute.
Two commands can be triggered:
1. Select: The DSM will pop up a select dialog and the user can select a data source.
2. Acquire: The data source will pop up a user dialog that allows the user to set various settings and then either scan or cancel the request. Once an image has been acquired by the twain data source as a DIB (Device Independent Bitmap) a BufferedImage object will be created and the DIB data copied to this BufferedImage. The jtwain object informs the ScannerListeners of the new image.
OmegaT is a free translation memory application written in Java. It is a tool intended for professional translators. It does not translate for you! (Software that does this is called "machine translation", and you will have to look elsewhere for it.) OmegaT has the following features:
* Fuzzy matching
* Match propagation
* Simultaneous processing of multiple-file projects
* Simultaneous use of multiple translation memories
* External glossaries
* Document file formats include:
XHTML and HTML
Microsoft Office 2007 XML
OpenOffice.org/StarOffice
XLIFF (Okapi)
MediaWiki (Wikipedia)
Plain text
* Unicode (UTF-8) support: can be used with non-Latin alphabets
* Support for right-to-left languages
* Compatible with other translation memory applications (TMX)
G. Biegel, and V. Cahill. Proceedings of the Second IEEE International Conference on Pervasive Computing and Communications (PerCom'04), page 361--. Washington, DC, USA, IEEE Computer Society, (2004)
D. Roth, M. Sammons, and V. Vydiswaran. Proceedings of the ACL-IJCNLP 2009 Conference Short Papers, page 57--60. Suntec, Singapore, Association for Computational Linguistics, (August 2009)