For build this project you can use ant (www.apache.org). Before build project rename
file build.properties.pattern in build.properties and set specific for your machine
parameters, then start build.bat (for Windows platform) or build.sh (for Linux)
in root project folder. After compile process all binary files will be copy into
build forlder.
For additional information please visit web site http://www.m-g.ru/corba
To subscribe on news about MT_DORB send e-mail with subject subscribe to corba@m-g.ru
We recommend that you place the MTDORB_UCUtils.dll ( or MTDORB_UCUtils.so for Linux)
in the Windows\System directory (or Windows\System32 for WinNT and Win2K and
/lib for Linux).
Main MTDORB author: Oleg V. Safonov <safonov@m-g.ru>
AC97 Sample Driver and Related Code Samples.
This directory contains a sample AC97 adapter driver and several related code samples.
These samples need to be compiled with the Windows .NET or Windows XP build environment but are binary compatible with older operating systems like Windows 2000. To build the samples, enter any Windows .NET or Windows XP build environment and run build –cZ from this directory. The AC97 sample driver also runs in Windows 98 Second Edition or Windows Me, but the property page DLL and control panel application do not. For more information, please refer to the readme.htm files in each subdirectory. The INF file in the driver directory installs all of the samples in the subdirectories. The header file in this directory defines the private property used by each of the samples.
jWAP is a Java implementation of the Wireless Application Protocol (WAP).
It includes Wireless Session Protocol (WSP) and Wireless Transaction
Protocol (WTP). Additionally, jWAP contains a WAP binary XML (WBXML)
Parser/Generator. It requires Java >= 1.2.
原始數(shù)據(jù)以Kiwi格式存儲(chǔ)在GTBL.dat的二進(jìn)制文件中,具體的文件格式請(qǐng)參照ReveseTableFormat.xls 中的“逆引表格式”sheet.-this procedure is the function of the navigation data of the road data collation, analysis. Kiwi to the original data stored in the format of the binary file GTBL.dat, specific file format ReveseTableFormat.xls Please refer to the "reverse primer format" sheet.
model OF the OFDM communication in simulink. And I was successful in completing it using a Bernoulli binary generator as the input source
(Basic_OFDM.mdl).
Flex chip implementation
File: UP2FLEX
JTAG jumper settings: down, down, up, up
Input:
Reset - FLEX_PB1
Input n - FLEX_SW switches 1 to 8
Output:
Countdown - two 7-segment LEDs.
Done light - decimal point on Digit1.
Operation:
Setup the binary input n number.
Press the Reset switch.
See the countdown from n down to 0 on the 7-segment LEDs.
Done light lit when program terminates.
The combinatorial core of the OVSF code assignment problem
that arises in UMTS is to assign some nodes of a complete binary
tree of height h (the code tree) to n simultaneous connections, such that
no two assigned nodes (codes) are on the same root-to-leaf path. Each
connection requires a code on a specified level. The code can change over
time as long as it is still on the same level. We consider the one-step code
assignment problem: Given an assignment, move the minimum number of
codes to serve a new request. Minn and Siu proposed the so-called DCAalgorithm
to solve the problem optimally. We show that DCA does not
always return an optimal solution, and that the problem is NP-hard.
We give an exact nO(h)-time algorithm, and a polynomial time greedy
algorithm that achieves approximation ratio Θ(h). Finally, we consider
the online code assignment problem for which we derive several results
