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Description: GSM mobile application part(MAP)-GSM mobile application part (MAP)
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Size: 6870911 |
Author: ll |
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Description: gsm map协议源代码,psf部分,方便程序员加快map协议的开发速度-gsm map agreement source code, psf, programmers to facilitate an agreement to accelerate the development map speed
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Size: 211267 |
Author: pyd |
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Description: gsm map协议源代码,测试程序部分,方便对map协议栈进行测试-gsm map agreement source code, test procedures, facilitate the map protocol stack test
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Size: 348475 |
Author: pyd |
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Description: 七号信令的解码源文件使用VC实现,可以对整个GSM中的map SCCP TCAP的协议进行解码
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Size: 642298 |
Author: xiangkl |
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Description: 【eoe特刊】第八期 :Android开发技巧 当掌握了一门开发语言以及一个平台的开发模式以后,基本上就可以进行开发了。但是写程序 是门很有意思的事情,特别是现在使用Java这样的语言开发,我们又了强大的开发工具,我们又了 更好的UI交互的平台,所以也诞生了很多使用的开发技巧,如果能够掌握这些小技巧无疑能为我们 的开发提速不少。 目录: 4 本期简介............................................................................2 上传 EOEMARKET 让社区帮你推广..........................................2 《GOOGLE ANDROID 开发入门与实战》简介............................3 1.1.1.1.最常用的 ECLIPSE 快捷键&模拟器快捷键.......................6 1.1ECLIPSE 快捷键.............................................................6 1.2 模拟器快捷键............................................................... 8 2.ECLISPE 使用技巧.......................................................... 10 2.1 密技篇:.................................................................... 10 2.2 外挂篇:.................................................................... 10 2.3 一般插件安装...............................................................11 2.4 安装 MYECLIPSE.......................................................12 2.5 自定义注释................................................................14 2.6 查看 JDK 源代码..........................................................14 3.JAVA 开发小技巧............................................................15 4. ANDROID最佳实践....................................................... 19 4.1 为性能设计:.............................................................. 19 4.2 为响应灵敏性设计........................................................ 22 4.3 为无缝设计:.............................................................. 24 5.多资源文件的引用........................................................... 27 6.ANDROID 调试 LOGCAT技巧...........................................29 7. 用 ANDROID 运行最简单的 C 程序....................................31 8.开发技巧杂集.................................................................33 8.1 一些源于 CSS 的组合实现技巧........................................33 8.2 关于 SEARCH 搜索框的使用...........................................33 8.3ANDROID 是否有网络连接...............................................34 8.4ACTIVITY 全屏和 无标题栏..............................................35 8.5 使用 VIEWSTUB 延迟展开视图........................................35 8.6 删除窗口背景................................................................35 8.7 使用主题......................................................................36 8.8 预先缩放图像到视图大小...................................................36 8.9 使用 GETSTRING (INT RESID, OBJECT... FORMATARGS)的技巧.37 8.10 横竖屏切换时不重新加载 ONCREATE.......................................38 8.11ANDROID TRANSLUCENTTHEME 半透明主题............................38 8.12 模拟器玩 PING....................................................................38 8.13 通过 GSM CALL 命令打电话\发短信..........................................39 9.9.9.9. 在 ANDROID中使用 MAP需要注意的技巧..............................40 10.每个人应该会用的四个GOOGLE ANDROID小技巧........................... 42 10.1 小技巧 1:随时使用 MPEG-4 H.264.........................................42 10.2 小技巧 2:硬检索关键字.........................................................42 10.3 技巧 3 使用手机摄像头拍摄商品条码消费.....................................42 10.4 小技巧 4:快捷键..................................................................42 总结:..................................................................................43 11. GOOGLE ANDROID SDK1.6 发布以及重大性能提升!...................44 系统新功能................................................................................. 44 新平台新技术................................................................................46 11.EOEMARKET..........................................................................48 A 每日一句................................................................................. 52 B APPSHARES............................................................................53 12.介绍特刊组成员....................................................................... 54 13.其他..................................................................................... 55 15. 游戏诞生记 真的要生 蛋了.........................................................56 15.1 游戏诞生记一月总结............................................................... 56 15.2 游戏诞生记 所有资源汇集贴......................................................58
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Size: 4344702 |
Author: shuishouqq@gmail.com |
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Description: GSM mobile application part(MAP)-GSM mobile application part (MAP)
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Size: 6871040 |
Author: ll |
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Description: gsm map协议源代码,测试程序部分,方便对map协议栈进行测试-gsm map agreement source code, test procedures, facilitate the map protocol stack test
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Size: 348160 |
Author: pyd |
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Description: TCAP的ASN1说明,对INAP,MAP,MAP+的解码很有帮助-ASN1 description of the TCAP, the INAP, MAP, MAP decoder helpful
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Size: 60416 |
Author: wangww |
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Description: 设计并实现了一种将GPS 全球卫星定位系统、GSM短消息服务系统、GIS 地理信息系统相结合的车辆定位、导航、调度指
挥系统. 该系统采用GPS/ DRS 相结合的定位方式,通过GSM网实现移动车辆与监控中心的双向通信,并结合电子地图实现车
辆的定位、导航、实时监控等功能. 系统具有人机界面友好、性能稳定可靠、使用方便等特点,并具有一定的社会经济效益.-Designed and implemented to GPS global satellite positioning system, GSM Short Message Service System, GIS Geographic Information System a combination of vehicle positioning, navigation, scheduling the chain of command. The system uses GPS/DRS means the combination of positioning, through the GSM network mobile vehicle monitoring center and two-way communication, combined with the realization of electronic map of the location of vehicles, navigation, real-time monitoring functions. system with man-machine interface is friendly, stable and reliable performance, ease of use, etc., and have certain social and economic benefits.
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Size: 289792 |
Author: 任宏涛 |
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Description: 控制GSM模块获得当前数据库并进行定位,C++开发,TC35i模块验证-GSM module to control access to databases and the current position
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Size: 79872 |
Author: changcheng |
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Description: Decompose image into subbands, denoise, and recompose again.
fh = decomp_reconst(im,Nsc,Nor,block,noise,parent,covariance,optim,sig)
covariance: are we considering covariance or just variance?
optim: for choosing between BLS-GSM (optim = 1) and MAP-GSM (optim = 0)
sig: standard deviation (scalar for uniform noise or matrix for spatially varying noise)
Version using the Full steerable pyramid (2) (High pass residual
splitted into orientations).
JPM, Univ. de Granada, 5/02
Last Revision: 11/04
- Decompose image into subbands, denoise, and recompose again.
fh = decomp_reconst(im,Nsc,Nor,block,noise,parent,covariance,optim,sig)
covariance: are we considering covariance or just variance?
optim: for choosing between BLS-GSM (optim = 1) and MAP-GSM (optim = 0)
sig: standard deviation (scalar for uniform noise or matrix for spatially varying noise)
Version using the Full steerable pyramid (2) (High pass residual
splitted into orientations).
JPM, Univ. de Granada, 5/02
Last Revision: 11/04
Platform: |
Size: 1024 |
Author: ali |
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Description:
Decompose image into subbands, denoise using BLS-GSM method, and recompose again.
fh = decomp_reconst(im,Nsc,filter,block,noise,parent,covariance,optim,sig)
im: image
Nsc: number of scales
filter: type of filter used (see namedFilters)
block: 2x1 vector indicating the dimensions (rows and columns) of the spatial neighborhood
noise: signal with the same autocorrelation as the noise
parent: include (1) or not (0) a coefficient from the immediately coarser scale in the neighborhood
covariance: are we considering covariance or just variance?
optim: for choosing between BLS-GSM (optim = 1) and MAP-GSM (optim = 0)
sig: standard deviation (scalar for uniform noise or matrix for spatially varying noise)
Version using a critically sampled pyramid (orthogonal wavelet), as implemented in MatlabPyrTools (Eero).
JPM, Univ. de Granada, 3/03-
Decompose image into subbands, denoise using BLS-GSM method, and recompose again.
fh = decomp_reconst(im,Nsc,filter,block,noise,parent,covariance,optim,sig)
im: image
Nsc: number of scales
filter: type of filter used (see namedFilters)
block: 2x1 vector indicating the dimensions (rows and columns) of the spatial neighborhood
noise: signal with the same autocorrelation as the noise
parent: include (1) or not (0) a coefficient from the immediately coarser scale in the neighborhood
covariance: are we considering covariance or just variance?
optim: for choosing between BLS-GSM (optim = 1) and MAP-GSM (optim = 0)
sig: standard deviation (scalar for uniform noise or matrix for spatially varying noise)
Version using a critically sampled pyramid (orthogonal wavelet), as implemented in MatlabPyrTools (Eero).
JPM, Univ. de Granada, 3/03
Platform: |
Size: 1024 |
Author: ali |
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Description: Decompose image into subbands (undecimated wavelet), denoise, and recompose again.
fh = decomp_reconst_wavelet(im,Nsc,daub_order,block,noise,parent,covariance,optim,sig)
im : image
Nsc: Number of scales
daub_order: Order of the daubechie fucntion used (must be even).
block: size of neighborhood within each undecimated subband.
noise: image having the same autocorrelation as the noise (e.g., a delta, for white noise)
parent: are we including the coefficient at the central location at the next coarser scale?
covariance: are we considering covariance or just variance?
optim: for choosing between BLS-GSM (optim = 1) and MAP-GSM (optim = 0)
sig: standard deviation (scalar for uniform noise or matrix for spatially varying noise)
Javier Portilla, Univ. de Granada, 3/03
Revised: 11/04 - Decompose image into subbands (undecimated wavelet), denoise, and recompose again.
fh = decomp_reconst_wavelet(im,Nsc,daub_order,block,noise,parent,covariance,optim,sig)
im : image
Nsc: Number of scales
daub_order: Order of the daubechie fucntion used (must be even).
block: size of neighborhood within each undecimated subband.
noise: image having the same autocorrelation as the noise (e.g., a delta, for white noise)
parent: are we including the coefficient at the central location at the next coarser scale?
covariance: are we considering covariance or just variance?
optim: for choosing between BLS-GSM (optim = 1) and MAP-GSM (optim = 0)
sig: standard deviation (scalar for uniform noise or matrix for spatially varying noise)
Javier Portilla, Univ. de Granada, 3/03
Revised: 11/04
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Size: 1024 |
Author: ali |
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Description: 支持中国G网、C网7号信令的SCCP、TCAP、MAP和智能网协议的源代码,并且提供简单易用的API,只要在上层实现信令流程,就能够快速实现各种业务的SCP、信令监测以及其它增值业务,如一卡多号、主叫名片、智能应答、信令转换等。有问题请联系,QQ:1354972897-SS7 stack source code for GSM and CDMA, including SCCP, TCAP, MAP, CAP and WIN.
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Size: 6004736 |
Author: Josh |
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Description: map info tool for gsm
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Size: 86016 |
Author: Andrey |
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Description: 广宇GPS系统,可实现车载终端的GSM/GPRS短信控制,通通信,模拟车辆数据,使用MAPX5及MAPINFO地图-err
-The Guangyu GPS system, the car terminal' s GSM/GPRS, SMS control, through communication, the simulated vehicle data, the MAPX5 and MAPINFO map-err
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Size: 425984 |
Author: eda52 |
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Description: 关于GSM中同频干扰和邻频干扰的分析,和matlab仿真实现,有图-About the GSM co-channel interference and adjacent channel interference analysis, and matlab simulation, a map
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Size: 4096 |
Author: lemon |
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Description: it s about how to map, to route the electronic cards, expecially with gsm inteface
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Size: 65536 |
Author: Iradath |
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Description: ETS 300 599,英文协议原版。Mobile Application Part (MAP)协议的说明。包含ASN.1的定义,协议流程,字段定义等等。-Digital cellular telecommunications system (Phase 2)
Mobile Application Part (MAP) specification
(GSM 09.02 version 4.19.1)
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Size: 2139136 |
Author: Leo |
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Description: 匹配追踪和正交匹配追踪,GSM中GMSK调制信号的产生,主要为数据分析和统计,最大似然(ML)准则和最大后验概率(MAP)准则,用MATLAB实现的压缩传感,FMCW调频连续波雷达的测距测角,对信号进行频谱分析及滤波,在MATLAB中求图像纹理特征。- Matching Pursuit and orthogonal matching pursuit, GSM is GMSK modulation signal generation, Mainly for data analysis and statistics, Maximum Likelihood (ML) criteria and maximum a posteriori (MAP) criterion, Using MATLAB compressed sensing, FMCW frequency modulated continuous wave radar range and angular measurements, The signal spectral analysis and filtering, In the MATLAB image texture feature.
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Size: 13312 |
Author: ixqzrkx |
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