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對(duì)于瀝青混凝土攤鋪機(jī)自動(dòng)找平控制系統(tǒng)來(lái)說(shuō),數(shù)字式控制系統(tǒng)的研制是目前的一個(gè)方向�����。介紹了一種基于CAN總線的數(shù)字式自動(dòng)找平控制系統(tǒng)。該系統(tǒng)以CAN總線作為通信方式�����,PWM控制信號(hào)通過C8051F040單片機(jī)內(nèi)部PCA可編程計(jì)數(shù)器陣列產(chǎn)生�����,并具有結(jié)構(gòu)簡(jiǎn)單�����、信號(hào)穩(wěn)定、實(shí)時(shí)性強(qiáng)�����、易擴(kuò)展的特點(diǎn)�����。通過硬件實(shí)現(xiàn)和系統(tǒng)運(yùn)行達(dá)到了比較理想的控制效果,驗(yàn)證了系統(tǒng)的可行性。
Abstract:
A digital auto-leveling control system based on CAN Bus is introduced.It uses CAN Bus as the method of communication and creates PWM signals by programmable counter array in C8051F040 microcontroller. The system is simple, stable, real-time and expansive.
標(biāo)簽:
CAN
總線
數(shù)字式
控制系統(tǒng)設(shè)計(jì)
上傳時(shí)間:
2013-10-09
上傳用戶:ligi201200
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在需要實(shí)時(shí)大量輸入漢字的顯示控制處理應(yīng)用中�����,利用傳統(tǒng)單片機(jī)實(shí)現(xiàn)顯示控制的設(shè)計(jì)方法是較難實(shí)現(xiàn)的�����。帶漢字字庫(kù)的液晶模塊的使用使得小容量ROM單片機(jī)的大量漢字信息輸入與顯示成為可能�����。提出了針對(duì)漢字字庫(kù)編碼的二級(jí)索引拼音輸入檢索方法,介紹了以ST7920作為控制器的帶漢字字庫(kù)的液晶顯示模塊的接口方法及漢字顯示和控制原理,給出了通用計(jì)算機(jī)鍵盤在單片機(jī)中的串行接口,采用該技術(shù)可大大增強(qiáng)單片機(jī)的漢字輸入功能。為小容量ROM單片機(jī)的大批量漢字信息處理提供了一種漢字輸入解決方案。
Abstract:
It is difficult to realize Chinese characters input method based on the embedded system by using the traditional design method of display control. It is possible to input and display Chinese characters based on the embedded system with the ROM of small content by using the LCD module with Chinese characters.Chinese characters input method of the quadric index recall in allusion to Chinese characters code is brought forward.The interface and the principle of Chinese characters display control based on the LCD module controlled with the ST7920 is introduced too.The serial interface of the computer keyboard in common use and the embedded system is given at the same time. It can enhance the embedded system function of Chinese characters input by using this technology, and provide a kind of Chinese characters input scheme for the embedded system with small capacity ROM.
標(biāo)簽:
ROM
單片機(jī)
漢字輸入法
上傳時(shí)間:
2013-11-19
上傳用戶:jhksyghr
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匯編器在微處理器的驗(yàn)證和應(yīng)用中舉足輕重�����,如何設(shè)計(jì)通用的匯編器一直是研究的熱點(diǎn)之一�����。本文提出了一種開放式的匯編器系統(tǒng)設(shè)計(jì)思想�����,在匯編語(yǔ)言與機(jī)器語(yǔ)言間插入中間代碼CMDL(code mapping description language)語(yǔ)言�����,打破匯編語(yǔ)言與機(jī)器語(yǔ)言的直接映射關(guān)系,由此建立起一套描述匯編語(yǔ)言與機(jī)器語(yǔ)言的開放式映射體系�����?����;诖碎_放式映射體系開發(fā)了一套匯編器系統(tǒng),具有較高層次上的通用性和可移植性?����!娟P(guān)鍵詞】指令集�����,CMDL�����,匯編器,開放式
Design of Retargetable Assembler System Liu Ling Feng Wen Nan Wang Ying Chun Jiang An Ping Ji Li Jiu IME of Peking University, 100871【摘要】An assembler plays a very important role in the field of microprocessor verifications and applications, thus how to build a retargetable assembler system has been a hotspot in this field for long time. This paper presents a new method about the retargetable assembler system design.It provides a kind of language CMDL, code mapping description language. During the process of assembling, assembler languages are firstly translated to CMDL, and then mapped to the machine codes. In an other word, CMDL is inserted between assembler languages and machine codes during the translation procedure. As a medium code, CMDL has a lot of features, such as high extraction, strong descript capabilities. It can describe almost all attributes of assembler languages. By breaking the direct mapping relationship between assembler languages and machine codes, the complexities of machine codes are hided to the users, therefore, the new retargetable assembler system has higher retargetable level by converting the mapping from assembler languages and machine codes to assembler languages and CMDL, and implementationof it becomes easier. Based on the new mapping system structure, a retargetable assemblersystem is developed. It proved the whole system has good retargetability and implantability.【關(guān)鍵詞】instruction set, symbol table, assembler, lexical analysis, retargetability
標(biāo)簽:
開放式
匯編器
上傳時(shí)間:
2013-10-10
上傳用戶:meiguiweishi
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針對(duì)無(wú)位置傳感器無(wú)刷直流電機(jī)的位置檢測(cè)問題,本文應(yīng)用單片機(jī)成功地實(shí)現(xiàn)了一種軟件檢測(cè)方法,并給出了實(shí)測(cè)波形加以驗(yàn)證�����。關(guān)鍵詞: 無(wú)刷直流電機(jī) 無(wú)傳感器 位置檢測(cè)Abstract: As to the position-detecting problem of sensorless brushless DC motor, a softwarerealization by microcomputer is proposed successfully in the paper. Experiment results are also presented to verify the method.Keywords: brushless DC motor, sensorless, position detecting
標(biāo)簽:
BLDCM
無(wú)傳感器
位置檢測(cè)
單片機(jī)軟件
上傳時(shí)間:
2013-11-01
上傳用戶:aappkkee
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The μPSD32xx family, from ST, consists of Flash programmable system devices with a 8032 MicrocontrollerCore. Of these, the μPSD3234A and μPSD3254A are notable for having a complete implementationof the USB hardware directly on the chip, complying with the Universal Serial Bus Specification, Revision1.1.This application note describes a demonstration program that has been written for the DK3200 hardwaredemonstration kit (incorporating a μPSD3234A device). It gives the user an idea of how simple it is to workwith the device, using the HID class as a ready-made device driver for the USB connection.IN-APPLICATION-PROGRAMMING (IAP) AND IN-SYSTEM-PROGRAMMING (ISP)Since the μPSD contains two independent Flash memory arrays, the Micro Controller Unit (MCU) can executecode from one memory while erasing and programming the other. Product firmware updates in thefield can be reliably performed over any communication channel (such as CAN, Ethernet, UART, J1850)using this unique architecture. For In-Application-Programming (IAP), all code is updated through theMCU. The main advantage for the user is that the firmware can be updated remotely. The target applicationruns and takes care on its own program code and data memory.IAP is not the only method to program the firmware in μPSD devices. They can also be programmed usingIn-System-Programming (ISP). A IEEE1149.1-compliant JTAG interface is included on the μPSD. Withthis, the entire device can be rapidly programmed while soldered to the circuit board (Main Flash memory,Secondary Boot Flash memory, the PLD, and all configuration areas). This requires no MCU participation.The MCU is completely bypassed. So, the μPSD can be programmed or reprogrammed any time, anywhere, even when completely uncommitted.Both methods take place with the device in its normal hardware environment, soldered to a printed circuitboard. The IAP method cannot be used without previous use of ISP, because IAP utilizes a small amountof resident code to receive the service commands, and to perform the desired operations.
標(biāo)簽:
Demonstration
3200
USB
for
上傳時(shí)間:
2014-02-27
上傳用戶:zhangzhenyu
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The 87C576 includes two separate methods of programming theEPROM array, the traditional modified Quick-Pulse method, and anew On-Board Programming technique (OBP).Quick Pulse programming is a method using a number of devicepins in parallel (see Figure 1) and is the traditional way in which87C51 family members have been programmed. The Quick-Pulsemethod supports the following programming functions:– program USER EPROM– verify USER EPROM– program KEY EPROM– program security bits– verify security bits– read signature bytesThe Quick-Pulse method is quite easily suited to standardprogramming equipment as evidenced by the numerous vendors of87C51 compatible programmers on the market today. Onedisadvantage is that this method is not well suited to programming inthe embedded application because of the large number of signallines that must be isolated from the application. In addition, parallelsignals from a programmer would need to be cabled to theapplication’s circuit board, or the application circuit board wouldneed to have logic built-in to perform the programming functions.These requirements have generally made in-circuit programmingusing the modified Quick Pulse method impractical in almost all87C51 family applications.
標(biāo)簽:
87C576
微控制器
編程
上傳時(shí)間:
2013-10-21
上傳用戶:xiaozhiqban
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CAN與RS232轉(zhuǎn)換節(jié)點(diǎn)的設(shè)計(jì)與實(shí)現(xiàn)
介紹將CAN總線接口與RS232總線接口相互轉(zhuǎn)換的設(shè)計(jì)方法和2種總線電平轉(zhuǎn)換關(guān)系�����,實(shí)現(xiàn)CAN總線與各模塊的接口設(shè)計(jì)�����,制定了相應(yīng)的軟硬件設(shè)計(jì)方案,并給出軟件設(shè)計(jì)流程圖以及部分硬件設(shè)計(jì)原理圖。為CAN總線與RS232總線互聯(lián)提供了一種方法,對(duì)CAN總線與RS232總線接口設(shè)備的互聯(lián)和廣泛應(yīng)用的實(shí)現(xiàn)具有重要意義。關(guān)鍵詞:CAN總線;RS-232總線�����;串行通信Design and Realization of CAN and RS232 Transformation NodeZHOU Wei, CHENG Xiao-hong(Information Institute, Wuhan University of Technology, Wuhan 430070)【Abstract】This paper introduces one design method of the CAN bus interface and the RS232 bus interface interconversion, emphasizes two kindof bus level transformation relations, realizes the CAN bus and various modules connection design, formulates the design proposal of correspondingsoftware and hardware, and gives the flow chart of software design as well as the partial schematic diagram of hardware design. It providesonemethod for the CAN bus and the RS232 bus interconnection, has the vital significance to widespread application realization of the CAN busand theRS232 bus interface equipment interconnection.【Key words】CAN bus; RS-232 bus; serial communication
標(biāo)簽:
CAN
232
RS
轉(zhuǎn)換
上傳時(shí)間:
2013-11-04
上傳用戶:leesuper
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有兩種方式可以讓設(shè)備和應(yīng)用程序之間聯(lián)系:1. 通過為設(shè)備創(chuàng)建的一個(gè)符號(hào)鏈�����;2. 通過輸出到一個(gè)接口WDM驅(qū)動(dòng)程序建議使用輸出到一個(gè)接口而不推薦使用創(chuàng)建符號(hào)鏈的方法。這個(gè)接口保證PDO的安全�����,也保證安全地創(chuàng)建一個(gè)惟一的�����、獨(dú)立于語(yǔ)言的訪問設(shè)備的方法�����。一個(gè)應(yīng)用程序使用Win32APIs來(lái)調(diào)用設(shè)備。在某個(gè)Win32 APIs和設(shè)備對(duì)象的分發(fā)函數(shù)之間存在一個(gè)映射關(guān)系�����。獲得對(duì)設(shè)備對(duì)象訪問的第一步就是打開一個(gè)設(shè)備對(duì)象的句柄�����。
用符號(hào)鏈打開一個(gè)設(shè)備的句柄為了打開一個(gè)設(shè)備�����,應(yīng)用程序需要使用CreateFile�����。如果該設(shè)備有一個(gè)符號(hào)鏈出口�����,應(yīng)用程序可以用下面這個(gè)例子的形式打開句柄:hDevice = CreateFile("\\\\.\\OMNIPORT3", GENERIC_READ | GENERIC_WRITE,FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL ,NULL);文件路徑名的前綴“\\.\”告訴系統(tǒng)本調(diào)用希望打開一個(gè)設(shè)備�����。這個(gè)設(shè)備必須有一個(gè)符號(hào)鏈,以便應(yīng)用程序能夠打開它�����。有關(guān)細(xì)節(jié)查看有關(guān)Kdevice和CreateLink的內(nèi)容�����。在上述調(diào)用中第一個(gè)參數(shù)中前綴后的部分就是這個(gè)符號(hào)鏈的名字�����。注意:CreatFile中的第一個(gè)參數(shù)不是Windows 98/2000中驅(qū)動(dòng)程序(.sys文件)的路徑。是到設(shè)備對(duì)象的符號(hào)鏈�����。如果使用DriverWizard產(chǎn)生驅(qū)動(dòng)程序�����,它通常使用類KunitizedName來(lái)構(gòu)成設(shè)備的符號(hào)鏈�����。這意味著符號(hào)鏈名有一個(gè)附加的數(shù)字�����,通常是0�����。例如:如果鏈接名稱的主干是L“TestDevice”那么在CreateFile中的串就該是“\\\\.\\TestDevice0”。如果應(yīng)用程序需要被覆蓋的I/O,第六個(gè)參數(shù)(Flags)必須或上FILE_FLAG_OVERLAPPED。
使用一個(gè)輸出接口打開句柄用這種方式打開一個(gè)句柄會(huì)稍微麻煩一些。DriverWorks庫(kù)提供兩個(gè)助手類來(lái)使獲得對(duì)該接口的訪問容易一些,這兩個(gè)類是CDeviceInterface, 和 CdeviceInterfaceClass�����。CdeviceInterfaceClass類封裝了一個(gè)設(shè)備信息集�����,該信息集包含了特殊類中的所有設(shè)備接口信息�����。應(yīng)用程序能有用CdeviceInterfaceClass類的一個(gè)實(shí)例來(lái)獲得一個(gè)或更多的CdeviceInterface類的實(shí)例。CdeviceInterface類是一個(gè)單一設(shè)備接口的抽象。它的成員函數(shù)DevicePath()返回一個(gè)路徑名的指針�����,該指針可以在CreateFile中使用來(lái)打開設(shè)備�����。下面用一個(gè)小例子來(lái)顯示這些類最基本的使用方法:extern GUID TestGuid;HANDLE OpenByInterface( GUID* pClassGuid, DWORD instance, PDWORD pError){ CDeviceInterfaceClass DevClass(pClassGuid, pError); if (*pError != ERROR_SUCCESS) return INVALID_HANDLE_VALUE; CDeviceInterface DevInterface(&DevClass, instance, pError); if (*pError != ERROR_SUCCESS) return INVALID_HANDLE_VALUE; cout << "The device path is " << DevInterface.DevicePath() << endl;
HANDLE hDev; hDev = CreateFile( DevInterface.DevicePath(), GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL ); if (hDev == INVALID_HANDLE_VALUE) *pError = GetLastError(); return hDev;}
在設(shè)備中執(zhí)行I/O操作一旦應(yīng)用程序獲得一個(gè)有效的設(shè)備句柄,它就能使用Win32 APIs來(lái)產(chǎn)生到設(shè)備對(duì)象的IRPs�����。下面的表顯示了這種對(duì)應(yīng)關(guān)系。Win32 API DRIVER_FUNCTION_xxxIRP_MJ_xxx KDevice subclass member function CreateFile CREATE Create ReadFile READ Read WriteFile WRITE Write DeviceIoControl DEVICE_CONTROL DeviceControl CloseHandle CLOSECLEANUP CloseCleanUp 需要解釋一下設(shè)備類成員的Close和CleanUp:CreateFile使內(nèi)核為設(shè)備創(chuàng)建一個(gè)新的文件對(duì)象�����。這使得多個(gè)句柄可以映射同一個(gè)文件對(duì)象�����。當(dāng)這個(gè)文件對(duì)象的最后一個(gè)用戶級(jí)句柄被撤銷后�����,I/O管理器調(diào)用CleanUp。當(dāng)沒有任何用戶級(jí)和核心級(jí)的對(duì)文件對(duì)象的訪問的時(shí)候,I/O管理器調(diào)用Close。如果被打開的設(shè)備不支持指定的功能�����,則調(diào)用相應(yīng)的Win32將引起錯(cuò)誤(無(wú)效功能)�����。以前為Windows95編寫的VxD的應(yīng)用程序代碼中可能會(huì)在打開設(shè)備的時(shí)候使用FILE_FLAG_DELETE_ON_CLOSE屬性�����。在Windows NT/2000中,建議不要使用這個(gè)屬性�����,因?yàn)樗鼘?dǎo)致沒有特權(quán)的用戶企圖打開這個(gè)設(shè)備�����,這是不可能成功的。I/O管理器將ReadFile和WriteFile的buff參數(shù)轉(zhuǎn)換成IRP域的方法依賴于設(shè)備對(duì)象的屬性�����。當(dāng)設(shè)備設(shè)置DO_DIRECT_IO標(biāo)志�����,I/O管理器將buff鎖住在存儲(chǔ)器中�����,并且創(chuàng)建了一個(gè)存儲(chǔ)在IRP中的MDL域。一個(gè)設(shè)備可以通過調(diào)用Kirp::Mdl來(lái)存取MDL�����。當(dāng)設(shè)備設(shè)置DO_BUFFERED_IO標(biāo)志�����,設(shè)備對(duì)象分別通過KIrp::BufferedReadDest或 KIrp::BufferedWriteSource為讀或?qū)懖僮鳙@得buff地址�����。當(dāng)設(shè)備不設(shè)置DO_BUFFERED_IO標(biāo)志也不設(shè)置DO_DIRECT_IO,內(nèi)核設(shè)置IRP 的UserBuffer域來(lái)對(duì)應(yīng)ReadFile或WriteFile中的buff參數(shù)�����。然而�����,存儲(chǔ)區(qū)并沒有被鎖住而且地址只對(duì)調(diào)用進(jìn)程有效。驅(qū)動(dòng)程序可以使用KIrp::UserBuffer來(lái)存取IRP域�����。對(duì)于DeviceIoControl調(diào)用,buffer參數(shù)的轉(zhuǎn)換依賴于特殊的I/O控制代碼�����,它不在設(shè)備對(duì)象的特性中�����。宏CTL_CODE(在winioctl.h中定義)用來(lái)構(gòu)造控制代碼�����。這個(gè)宏的其中一個(gè)參數(shù)指明緩沖方法是METHOD_BUFFERED, METHOD_IN_DIRECT, METHOD_OUT_DIRECT, 或METHOD_NEITHER。下面的表顯示了這些方法和與之對(duì)應(yīng)的能獲得輸入緩沖與輸出緩沖的KIrp中的成員函數(shù):Method Input Buffer Parameter Output Buffer Parameter METHOD_BUFFERED KIrp::IoctlBuffer KIrp::IoctlBuffer
METHOD_IN_DIRECT KIrp::IoctlBuffer KIrp::Mdl
METHOD_OUT_DIRECT KIrp::IoctlBuffer KIrp::Mdl
METHOD_NEITHER KIrp::IoctlType3InputBuffer KIrp::UserBuffer
如果控制代碼指明METHOD_BUFFERED�����,系統(tǒng)分配一個(gè)單一的緩沖來(lái)作為輸入與輸出�����。驅(qū)動(dòng)程序必須在向輸出緩沖放數(shù)據(jù)之前拷貝輸入數(shù)據(jù)�����。驅(qū)動(dòng)程序通過調(diào)用KIrp::IoctlBuffer獲得緩沖地址�����。在完成時(shí)�����,I/O管理器從系統(tǒng)緩沖拷貝數(shù)據(jù)到提供給Ring 3級(jí)調(diào)用者使用的緩沖中。驅(qū)動(dòng)程序必須在結(jié)束前存儲(chǔ)拷貝到IRP的Information成員中的數(shù)據(jù)個(gè)數(shù)。如果控制代碼不指明METHOD_IN_DIRECT或METHOD_OUT_DIRECT,則DeviceIoControl的參數(shù)呈現(xiàn)不同的含義�����。參數(shù)InputBuffer被拷貝到一個(gè)系統(tǒng)緩沖�����,這個(gè)緩沖驅(qū)動(dòng)程序可以通過調(diào)用KIrp::IoctlBuffer�����。參數(shù)OutputBuffer被映射到KMemory對(duì)象,驅(qū)動(dòng)程序?qū)@個(gè)對(duì)象的訪問通過調(diào)用KIrp::Mdl來(lái)實(shí)現(xiàn)�����。對(duì)于METHOD_OUT_DIRECT�����,調(diào)用者必須有對(duì)緩沖的寫訪問權(quán)限�����。注意�����,對(duì)METHOD_NEITHER�����,內(nèi)核只提供虛擬地址;它不會(huì)做映射來(lái)配置緩沖�����。虛擬地址只對(duì)調(diào)用進(jìn)程有效�����。這里是一個(gè)用METHOD_BUFFERED的例子:首先�����,使用宏CTL_CODE來(lái)定義一個(gè)IOCTL代碼:#define IOCTL_MYDEV_GET_FIRMWARE_REV \CTL_CODE (FILE_DEVICE_UNKNOWN,0,METHOD_BUFFERED,FILE_ANY_ACCESS)現(xiàn)在使用一個(gè)DeviceIoControl調(diào)用:BOOLEAN b;CHAR FirmwareRev[60];ULONG FirmwareRevSize;b = DeviceIoControl(hDevice, IOCTL_MYDEV_GET_VERSION_STRING, NULL, // no input 注意�����,這里放的是包含有執(zhí)行操作命令的字符串指針 0, FirmwareRev, //這里是output串指針,存放從驅(qū)動(dòng)程序中返回的字符串。sizeof(FirmwareRev),& FirmwareRevSize, NULL // not overlapped I/O );如果輸出緩沖足夠大�����,設(shè)備拷貝串到里面并將拷貝的資結(jié)束設(shè)置到FirmwareRevSize中�����。在驅(qū)動(dòng)程序中,代碼看起來(lái)如下所示:const char* FIRMWARE_REV = "FW 16.33 v5";NTSTATUS MyDevice::DeviceControl( KIrp I ){ ULONG fwLength=0; switch ( I.IoctlCode() ) { case IOCTL_MYDEV_GET_FIRMWARE_REV: fwLength = strlen(FIRMWARE_REV)+1; if (I.IoctlOutputBufferSize() >= fwLength) { strcpy((PCHAR)I.IoctlBuffer(),FIRMWARE_REV); I.Information() = fwLength; return I.Complete(STATUS_SUCCESS); } else { } case . . . } }
標(biāo)簽:
驅(qū)動(dòng)程序
應(yīng)用程序
接口
上傳時(shí)間:
2013-10-17
上傳用戶:gai928943
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提出了一種改進(jìn)的LSM-ALSM子空間模式識(shí)別方法�����,將LSM的旋轉(zhuǎn)策略引入ALSM�����,使子空間之間互不關(guān)聯(lián)的情況得到改善�����,提高了ALSM對(duì)相似樣本的區(qū)分能力。討論中以性能函數(shù)代替經(jīng)驗(yàn)函數(shù)來(lái)確定拒識(shí)規(guī)則的參數(shù)�����,實(shí)現(xiàn)了識(shí)別率�����、誤識(shí)率與拒識(shí)率之間的最佳平衡�����;通過對(duì)有限字符集的實(shí)驗(yàn)結(jié)果表明,LSM-ALSM算法有效地改善了分類器的識(shí)別率和可靠性�����。關(guān) 鍵 詞 學(xué)習(xí)子空間; 性能函數(shù); 散布矩陣; 最小描述長(zhǎng)度在子空間模式識(shí)別方法中�����,一個(gè)線性子空間代表一個(gè)模式類別,該子空間由反映類別本質(zhì)的一組特征矢量張成,分類器根據(jù)輸入樣本在各子空間上的投影長(zhǎng)度將其歸為相應(yīng)的類別。典型的子空間算法有以下三種[1, 2]:CLAFIC(Class-feature Information Compression)算法以相關(guān)矩陣的部分特征向量來(lái)構(gòu)造子空間�����,實(shí)現(xiàn)了特征信息的壓縮�����,但對(duì)樣本的利用為一次性�����,不能根據(jù)分類結(jié)果進(jìn)行調(diào)整和學(xué)習(xí),對(duì)樣本信息的利用不充分�����;學(xué)習(xí)子空間方法(Leaning Subspace Method, LSM)通過旋轉(zhuǎn)子空間來(lái)拉大樣本所屬類別與最近鄰類別的距離�����,以此提高分類能力�����,但對(duì)樣本的訓(xùn)練順序敏感�����,同一樣本訓(xùn)練的順序不同對(duì)子空間構(gòu)造的影響就不同�����;平均學(xué)習(xí)子空間算法(Averaged Learning Subspace Method, ALSM)是在迭代訓(xùn)練過程中�����,用錯(cuò)誤分類的樣本去調(diào)整散布矩陣,訓(xùn)練結(jié)果與樣本輸入順序無(wú)關(guān),所有樣本平均參與訓(xùn)練�����,其不足之處是各模式的子空間之間相互獨(dú)立�����。針對(duì)以上問題�����,本文提出一種改進(jìn)的子空間模式識(shí)別方法。子空間模式識(shí)別的基本原理1.1 子空間的分類規(guī)則子空間模式識(shí)別方法的每一類別由一個(gè)子空間表示,子空間分類器的基本分類規(guī)則是按矢量在各子空間上的投影長(zhǎng)度大小�����,將樣本歸類到最大長(zhǎng)度所對(duì)應(yīng)的類別�����,在類x()iω的子空間上投影長(zhǎng)度的平方為()211,2,,()argmax()jMTkkjpg===Σx (1)式中 函數(shù)稱為分類函數(shù)�����;為子空間基矢量�����。兩類的分類情況如圖1所示�����。
標(biāo)簽:
子空間
模式
識(shí)別方法
上傳時(shí)間:
2013-12-25
上傳用戶:熊少鋒
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用單片機(jī)配置FPGA—PLD設(shè)計(jì)技巧
Configuration/Program Method for Altera Device
Configure the FLEX Device
You can use any Micro-Controller to configure the FLEX device–the main idea is clocking in ONE BITof configuration data per CLOCK–start from the BIT 0The total Configuration time–e.g. 10K10 need 15K byte configuration file•calculation equation–10K10* 1.5= 15Kbyte–configuration time for the file itself•15*1024*8*clock = 122,880Clock•assume the CLOCK is 4MHz•122,880*1/4Mhz=30.72msec
標(biāo)簽:
FPGA
PLD
用單片機(jī)
設(shè)計(jì)技巧
上傳時(shí)間:
2013-10-09
上傳用戶:a67818601
