G中文通讯协议

通讯协议什么意思通讯协议是指在计算机网络中，不同设备之间进行通讯和数据交换时所遵循的一套规则和约定。

它定义了数据传输的格式、传输速率、错误检测和纠正机制等内容，以确保不同设备之间能够正常地进行通讯和数据交换。

通讯协议是计算机网络中非常重要的一部分，它是网络通讯的基础，也是网络通讯能够正常进行的保障。

在计算机网络中，不同的设备可能来自不同的厂商，甚至可能使用不同的操作系统，但是它们之间需要进行数据交换和通讯。

这就需要通讯协议来统一规定数据的格式和传输方式，以确保不同设备之间能够正常地进行通讯和数据交换。

通讯协议的作用主要体现在以下几个方面：首先，通讯协议定义了数据传输的格式。

在计算机网络中，数据的传输是以比特流的形式进行的，但是如何将这些比特流组织成有意义的数据，就需要通讯协议来规定。

通讯协议规定了数据的起始和结束标志、数据的编码方式、数据的结构等内容，以确保不同设备之间能够正确地解析和处理数据。

其次，通讯协议规定了数据的传输速率。

不同设备之间进行通讯和数据交换时，需要以一定的速率进行数据传输，通讯协议规定了数据传输的速率，以确保数据能够按时到达目的地，从而保证通讯的实时性和可靠性。

此外，通讯协议还定义了错误检测和纠正机制。

在数据传输过程中，由于各种原因可能会导致数据出现错误，通讯协议规定了如何检测和纠正数据传输中的错误，以确保数据传输的正确性和可靠性。

总的来说，通讯协议是计算机网络中非常重要的一部分，它规定了数据传输的格式、传输速率、错误检测和纠正机制等内容，以确保不同设备之间能够正常地进行通讯和数据交换。

没有通讯协议，计算机网络就无法正常运行，因此通讯协议可以说是计算机网络的基础，也是计算机网络能够正常进行通讯和数据交换的保障。

GPS协议简体中⽂⽂档nmea0183formatv3.01gps 语句说明NMEA-08132010-03-16 16:20NMEA-0813数据格式说明（转）2008-06-11 09:11NMEA-0183是美国国家海洋电⼦协会(National Marine Electronics Association )为海⽤电⼦设备制定的标准格式。

统⼀标准格式NMEA-0183输出采⽤ASCII 码，其串⾏通信的参数为：波特率＝4800bps，数据位＝8bit，开始位=1bit，停⽌位＝1bit，⽆奇偶校验。

NMEA-0183 的每条语句的格式如下表所⽰。

符号（ASCII）——定义——HEX——DEX“$”——语句起始位——24——36aaccc——地址域，前两位为识别符，后三位为语句名“，”——域分隔符——2C——44ddd…ddd——发送的数据内容“*”——效验和符号,后⾯的两位数是效验和——2A——42hh——效验和/ ——终⽌符,回车或换⾏——OD，OA——13，10不同的GPS OEM接收板提供的NMEA语句有很⼤差异，主要表现在字段的意义和位置上。

我们需要先弄清楚需要哪些信息，然后对照GPS OEM接收板的技术资料，寻找那些包括所需信息的NMEA语句。

1 GPRMC语句（Recommended Minimum Specific GPS/TRANSIT Data－RMC，推荐定位信息1次/1秒）对于⼀般的GPS动态定位应⽤，GPRMC语句完全满⾜要求。

该语句中包括经纬度、速度、时间和磁偏⾓等字段，这些数据为导航定位应⽤提供了充分的信息。

下表详细说明GPRMC语句中的各个字段：$GPRMC， <1>，<2>，<3>，<4>，<5>，<6>，<7>， <8>，<9>，<10>，，<12>字段 $GPRMC语句意义——取值范围<1> UTC时间：hhmmss.ss——000000.00~235959.99<2> 状态，有效性——A表⽰有效；V表⽰⽆效<3> 纬度格式：ddmm.mmmm——0000．00000~8959.9999<4> 南北半球——N北纬；S南纬<5> 经度格式：dddmm.mmmm——00000.0000~17959.9999<6> 东西半球——E表⽰东经；W表⽰西经<7> 地⾯速度——000.00~999.999<8> 速度⽅向——000.00~359.99<9> ⽇期格式，⽉⽇年——010100~123199<10> 磁偏⾓，单位：度——00.00~99.99磁偏⾓⽅向——E表⽰东；W表⽰西<12> 模式指⽰及校验和—— A=⾃主定位，D=差分，E=估算，N=数据⽆效例如：$GPRMC,074529.82,A,2429.6717,N,11804.6973,E,12.623,32.122,010806,,W, A*082 GPGGA语句（Global Positioning System Fix Data－GGA，GPS定位信息, 输出1次/1秒）GPS定位主要数据，该语句中包括经纬度、质量因⼦、HDOP、⾼程、基准站号等字段。

FIDIC合同条款1999(中文)Fédération Internationale Des Ingénieurs-Conseils通用条件General Conditions1.一般规定1.1 定义在包括专用条件和本通用条件的合同条件（“本合同条件”）中，以下措辞和用语的含义如下所述。

除非上下文中另有要求，指当事人和当事各方的词包括公司和其它法律实体。

1.1.1 合同1.1.1.1“合同(Contract)”指合同协议书、中标函、投标函、本合同条件、规范、图纸、资料表、以及在合同协议书或中标函中列明的其它进一步的文件(如有时)。

1.1.1.2“合同协议书(Contract Agreement)”指第1.6款【合同协议】中所说明的合同协议(如有时)。

1.1.1.3“中标函(Letter of Acceptance)”指雇主对投标文件签署的正式接受函，包括其后所附的备忘录(由合同各方达成并签定的协议构成)。

在没有此中标函的情况下，“中标函”一词就指合同协议书，颁发或接收中标函的日期就指双方签订合同协议书的日期。

1.1.1.4“投标函(Letter of Tender)”指名称为投标函的文件，由承包商填写，包括已签字的对雇主的工程报价。

1.1.1.5“规范(Specification)”指合同中名称为规范的文件，及根据合同规定对规范的增加和修改。

此文件具体描述了工程。

1.1.1.6“图纸(Drawings)”指合同中规定的工程图纸，及由雇主(或代表)根据合同颁发的对图纸的增加和修改。

1.1.1.7“资料表(Schedules)”指合同中名称为资料表的文件，由承包商填写并随投标函提交。

此文件可能包括工程量表、数据、列表、及费率和/或单价表。

1.1.1.8“投标文件(Tender)”指投标函和合同中规定的承包商应随投标函提交的其它所有文件。

1.1.1.9“投标函附录(Appendix to Tender)”指名称为投标函附录并已填写完毕的文件，附于投标函之后并构成投标函的一部分。

Mega System Technologies Inc.MegaTec Extended Communications Protocol-- for Three- Phase UPSDocument Number: Mega 3-phase-001EDocument File Name：Mega 3-phase-001EVersion： 1.1aDate：10 August 2000Submitted By：Checked By：Approved By：CLASSIFICATION：GeneralDATE DESCRIPTION MODIFY BY 2001.03.21© Mega System Technologies,Inc.The contents of this document are property of Mega System Technologies,Inc. No part of this work may be reproduced or transmitted in any form or by any means, except as permitted by written authorization by Mega System Technologies,Inc.MEGATEC EXTENDED COMMUNICATIONS PROTOCOL FOR THREE-PHASE UPSA. General: This document specifies the RS232C communication protocol ofAdvanced-Intelligent UPS. This protocol provides the followingfeatures :1. Monitor charge status.2. Monitor battery status and conditions.3. Monitor main power status.Computer gives command to UPS. All commands have to end with a < cr >.UPS responds to computer. All responses have to end with a < cr> .*** UPS must respond to every command within 500ms ***B. Hardware:BAUD RATE............... : 2400 bpsDATA LENGTH.......... : 8 bitsSTOP BIT..................... : 1 bitPARITY........................ : NONECABLING :COMPUTER UPS===================================RX <---------- TX (pin 9)TX ----------> RX (pin 6)GND <--------> GND (pin 7)(9 pins female D-type connector)C. COMMUNICATION PROTOCOL:1. UPS real time dataComputer : G1 <cr>UPS :!SSS PPP NNNN RRR.R +TT.T FF.F EE.E QQ.Q <cr>There should be a space character between every field for data separation. Themeaning of each field is listed as follows:a. Start byte : !b. Battery voltage: SSSSSS is an integer number ranging from 000 to 999.The unit is “Volt”.c. Battery Capacity percentage : PPPPPP is an integer number ranging from 000 to 100.The unit is “Percentage”..d. Battery Time Remaining : NNNNNNNN is an integer number ranging from 0000 to 9999.The unit is “Minute”.e. Battery current in charge mode or discharge mode: RRR.RBattery is in charge or discharge mode depends on a2 (Rectifier Status),When a2 =1 , means battery is in discharge mode.When a2 = 0, means battery is in charge mode.R is an integer number ranging from 0 to 9.The unit is “Amp”.f. Temperature : +TT.TT is an integer number ranging from –99.9 to +99.9.The unit is “Degree of centigrade”.g. I/P frequency : FF.FF is an integer number ranging from 0 to 9.The unit is “Hz”.h. Frequency of Bypass Source: EE.EE is an integer number ranging from 0 to 9.The unit is “Hz”.i. O/P frequency : QQ.QQ is an integer number ranging from 0 to 9.The unit is “Hz”.j.Stop Byte : <cr>Example: Computer : G1<cr>UPS : !240 094 0123 025.0 +35.0 60.1 62.0 60.0<cr>Means : Battery voltage is 240V.Battery Capacity is 94 %.Battery Time Remaining is 123 minutes.Charge current is 25 Amps.Temperature is 35.0 degrees centigrade.I/P frequency is 60.1 Hz.Frequency of Bypass Source is 62.0 Hz.O/P frequency is 60.0 Hz.2. UPS status inquiryComputer : G2UPS :!a7a6a5a4a3a2a1a0 b7b6b5b4b3b2b1b0 c7c6c5c4c3c2c1c0<cr>There should be a space character between every field for data separation. The meaning of each field is listed as follows:a. Start byte : !b. The Status of Rectifier and DC : <U><U> is one byte of binary information such as <a7a6a5a4a3a2a1a0>.“aN” is an ASCII character ‘0’ or ‘1’.Status of Rectifier and DC :Byte Description7 No Use6 RECTIFIER ROTATION ERROR5 1 : Low Battery Shutdown4 1 : Low Battery3 1 : Three in –One out 0 : three in –Three out2 1 : Back Up0 : AC Normal1 1 : Boost Charge 0 : Float Charge0 1 : Rectifier Operatingc. The Status of UPS : <U><U> is one byte of binary information such as <b7b6b5b4b3b2b1b0>.“bN” is an ASCII character ‘0’ or ‘1’.Status of UPS :Byte Description7 No Use6 No Use5 No Use4 BYPASS FRQUENCY FAIL3 1 : Manual Bypass Breaker On 0 : Manual Bypass Breaker Open2 1 : Bypass AC Normal 0 : Bypass AC Abnormal1 1 : Static Switch in Inverter Mode 0 : Static Switch in Bypass Mode0 1 : Inverter Operatingd. The Fault Condition of Inverter: <U><U> is one byte of binary information such as <c7c6c5c4c3c2c1c0>.“ cN ” is an ASCII character ‘0’ or ‘1’.The Fault Condition of Inverter :Byte Description7 No Use6 1 : Emergency Stop (EPO)5 1 : High DC Shutdown4 1 : Manual Bypass Breaker on Shutdown3 1 : Over Load Shutdown2 1 : Inverter O/P Fail Shutdown1 1 : Over Temperature Shutdown0 1 : Short Circuit ShutdownExample: Computer : G2<cr>UPS : !00000010 00000100 00000000<cr>Means : Three in-Three out UPS.Boost Charge.Bypass AC Normal3. UPS real time data for 3 phasesComputer : G3UPS :!NNN.N/NNN.N/NNN.N PPP.P/PPP.P/PPP.P QQQ.Q/QQQ.Q/QQQ.Q SSS.S/SSS.S/SSS.S<cr> There should be a space character between every field for data separation. The meaning of eachfield is listed as follows:a. Start byte : !b. I/P voltage of R/S/T 3 phases : NNN.N/NNN.N/NNN.NN is an integer number ranging from 0 to 9.The unit is “Volt”.c. Bypass AC source voltage of R/S/T 3 phases : PPP.P/PPP.P/PPP.PP is an integer number ranging from 0 to 9.The unit is “Volt”.d. O/P voltage of R/S/T 3 phases : QQQ.Q/QQQ.Q/QQQ.QQ is an integer number ranging from 0 to 9.The unit is “Volt”.e. Load percentage of R/S/T 3 phases : SSS.S/SSS.S/SSS.SS is an integer number ranging from 0 to 9.The unit is “Percentage”..Example: Computer : G3<cr>UPS :!222.0/222.0/222.0 221.0/221.0/221.0 220.0/220.0/220.0 014.0/015.0/014.0<cr>Means : I/P voltage R phase is 222V , S phase is 222V , T phase is 222V.Bypass AC voltage source R phase is 221V , S phase is 221V , T phase is 221V.I/P voltage R phase is 220V , S phase is 220V , T phase is 220V.Loading of R phase is 14 % , S phase is 15% , T phase is 14% ..4. UPS Information Command:Computer : I<cr>UPS : !Company_Name UPS_Model Version<cr>This function makes UPS respond with the basic information about UPS. Thisincludes UPS manufacture’s name , UPS model name and UPS firmware version.The length of every field is listed as below:Company_Name : 15 characters (bytes).Fill in with space characters if data cannotcomplete the field length .UPS_Model : 10 characters(bytes), Fill in with space characters if data cannotcomplete the field length .Version : 10 characters(bytes), Fill in with space characters if data cannotcomplete the field length .There should be a space character between every field for data separation.Example: Computer : I<cr>UPS : !MegaTec^^^^^^^^ M1000K^^^^ V001203.12<cr>Means : Company_Name: MegaTec^^^^^^^^UPS_Model : M1000K^^^^Version : V001203.12”^’ means a space character.5. UPS Rating Information:Computer : GF<cr>UPS : !Rect_Volt CCC Bpss_Volt FFF O/P_Volt QQQ SSS Power_Rating <cr>This function makes UPS respond with rating value of UPS.There should be a space character between every field for data separation.The UPS response contains the following information fileds.a. Rectifier Voltage of Phase to Neutral and Phase to Phase (Rect_Volt) :14 characters(bytes).Fill in with space characters if data cannot complete the field length .For example : 220V 3P3W, 220V/380V 3P4Wb. Rectifier Frequency : CCCc. Bypass Source Voltage of Phase to Neutral and Phase to Phase (Bpass_Volt) :14 characters(bytes).Fill in with space characters if data cannot complete the field length .For example : 220V 3P3W, 220V/380V 3P4Wd. Bypass Source Frequency : FFFe. O/P Voltage of Phase to Neutral and Phase to Phase (O/P_Volt) :14 characters(bytes).Fill in with space characters if data cannot complete the field length .For example : 220V 3P3W, 220V/380V 3P4Wf. O/P Frequency : QQQg. Battery Voltage: SSSh. Power_Rating :10 characters( bytes),Fill in with space characters if data cannot complete the field length .Example: Computer : GF<cr>UPS : !220V/380V^3P4W 060 220V/380V^3P4W 061 220V/3P3W^^^^^ 060 396 150KVA^^^^<cr>Means : UPS Id: 01Rectifier Voltage of Phase to Neutral and Phase to Phase: 220V/380V^3P4W .Rectifier Frequency : 60HzBypass Source Voltage of Phase to Neutral and Phase to Phase: 220V/380V^3P4WBypass Source Frequency : 61HzO/P Voltage of Phase to Neutral and Phase to Phase: 220V/3P3W^^^^^O/P Frequency : 60HzBattery Voltage : 396VdcPower_Rating : 150KVA^^^^”^’ means a space character( The document stated below is Megatec Protocol. We suggest integrating Megatec Protocol intoMegaTec Extended Communication Protocol for complete UPS safeguarding and control. )7. Test for 10 seconds:Computer : T<cr>UPS : Test for 10 seconds and return to main power .UPS will return to main power immediately if battery low occurs during testing.8.Test until battery low :Computer : TL<cr>UPS : Test until battery low and return to main power.9.Test for specified time period :Computer : T<n><cr>UPS : Test for <n> minutes.a.UPS will return to main power immediately if battery low occurs during testing.b. <n> is a number ranging from 01 to 99.10. Turn On/Off beep -- Toggle the UPS beeper :Computer : Q<cr>When main power fails, UPS will generate a warning beep to informthe network manager. The net work manager can toggle the warning beep bysending this command .11. Shutdown Command :Computer : S<n><cr>UPS : Shut UPS output off in <n> minutes.a.The UPS output will be turned off in <n> minutes,even if main power is present .b.If battery low occurs during <n> minutes,the output will be turned off immediately.c. After UPS shutdown, the controller of UPS will keep monitoringmain power . If main power restores, UPS will wait for 10 secondsand connect to main power to output.d. <n> is a number ranging from .2, .3, ..., 01, 02, ..., up to 10.For example : S.3<cr> --- shut output off in (.3) minutes12. Shutdown and Restore Command :Computer : S<n>R<m><cr>UPS : Shut UPS output off in <n> minutes, and waitfor <m> minutes then turn on UPS output again.a.The shutdown sequence is the same as the previous command. When the <m> minutes times is out,if main power does not restore, UPS will wait until main power restores.b. If UPS is in shutdown waiting state, "C" command can cancel the shutdown procedures .c.If UPS is in restore waiting state, "C" command can turn on UPS output ,but UPS must be hold off at least 10 seconds. (if main power is present.)d. <n> is a number ranging from .2, .3, ..., 01, 02, ..., up to 10.e. <m> is a number ranging from 0001 to 9999.13. Cancel Shutdown Command :Computer : C<cr>UPS : Cancel the SN<n><cr> and SN<n>R<m><cr> command.a. If UPS is in shut down waiting state, the shutdown command will be cancelled.b.If UPS is in restore waiting state, the UPS output will be turned on,but UPS must be hold off at least 10 seconds. (if main power is present)14. Cancel Test Command :Computer : CT<cr>UPS : Cancel all test activities and connect to main power tooutput immediately.15. UPS Rating Information:Computer : F<cr>UPS : #MMM.M QQQ SS.SS RR.R<cr>This function makes the UPS response the rating value of UPS.There should be a space character between every field for separation. The UPS‘sresponse contains the following information fields:a. Rating Voltage : MMM.Mb. Rating Current : QQQc. Battery Voltage : SS.SS or SSS.Sd. Frequency : RR.R16. Status Inquiry:Computer : Q1<cr>UPS : UPS status data stream, such as(MMM.M NNN.N PPP.P QQQ RR.R S.SS TT.T b7b6b5b4b3b2b1b0<cr>UPS status data stream :There should be a space character between every field for data separation. Themeaning of each field is list as follows:a. Start byte : (b.I/P voltage : MMM.MM is an integer number ranging from 0 to 9.The unit is “ Volt”.c.I/P fault voltage : NNN.NN is an integer number ranging from 0 to 9.The unit is Volt.** For OFF LINE UPS**Its purpose is to identify a short duration voltage glitch that causes OFF-line UPSto go to Inverter mode. When this occurs, input voltage will appear normal at queryprior to glitch and will still appear normal at next query.The I/P fault voltage will hold glitch voltage till next query. After query,the I/P fault voltage will be as same as I/P voltage until next glitch occurs.** For ON- LINE UPS**Its purpose is to identify a short duration main power failure which causes ON- line UPSto go to battery mode. When this occurs, input voltage will appear normal at queryprior to fail and will still appear normal at next query.The I/P fault voltage will hold main power failure voltage till next query. After query,the I/P voltage will be same as I/P voltage until next main power failure occurs.d.O/P voltage : PPP.PP is an integer number ranging from 0 to 9.The unit is “Volt”.e.O/P current : QQQQQQ is a percent of maximum current, not an absolute value.f.I/P frequency : RR.RR is an integer number ranging from 0 to 9.The unit is “ Hz”.g.Battery voltage : SS.S or S.SSS is an integer number ranging from 0 to 9.For on-line units battery voltage/cell is provided in the form S.SS .For standby units actual battery voltage is provided in the form SS.S .UPS type in UPS status will determine which reading was obtained.h.Temperature : TT.TT is an integer number ranging form 0 to 9.The unit is “degree of centigrade”.i.UPS Status : <U><U> is one byte of binary information such as<b7b6b5b4b3b2b1b0>.“ b N” is an ASCII character ‘0’ or ‘1’..UPS status :Bit Description7 1 : Utility Fail (Immediate)6 1 : Battery Low5 1 : Bypass/Boost or Buck Active4 1 : UPS Failed3 0 : UPS Type is Online (1 is Standby)2 1 : Test in Progress1 1 : Shutdown Active0 1 : Beeper Onj.Stop Byte : <cr>Example: Computer : Q1<cr>UPS :(208.4 140.0 208.4 034 59.9 2.05 35.0 00110000<cr>Means : I/P voltage is 208.4V.I/P fault voltage is 140.0V.O/P voltage is 208.4V.O/P current is 34 %.I/P frequency is 59.9 HZ.Battery voltage is 2.05V.Temperature is 35.0 degrees centigrade.UPS type is on-line , UPS failed. Bypassactive , and shutdown not active.MegaTec Extended Communications Protocol for Three- Phase UPSMega System Technologies Inc. 11D. COMMAND SUMMARY:ITEM COMMAND DESCRIPTION 1 G0 Scan UPS 2 G1 UPS real time data3 G2 UPS status inquiry4 G3 UPS real time data for 3 phase6 GF UPS Rating Information7 Q1 Status Inquiry 8 T 10 Seconds Test 9 TL Test until Battery Low 10 T<n> Test for Specified Time Period 11 Q Turn On/Off beep 12 S<n> Shut Down Command 13 S<n>R<m> Shut Down and Restore Command 14 C Cancel Shut Down Command 15 CT Cancel Test Command 16 I UPS Information Command17 F UPS Rating Information。

gRPC——通讯协议HTTP2 协议上的 gRPC本⽂档作为 gRPC 在 HTTP2 草案17框架上的实现的详细描述，假设你已经熟悉 HTTP2 的规范。

产品规则采⽤的是⼤纲以下是 gRPC 请求和应答消息流中⼀般的消息顺序：请求→请求报头 *有定界符的消息 EOS应答→应答报头 *有定界符的消息 EOS应答→ (应答报头 *有定界符的消息跟踪信息) / 仅仅跟踪时请求请求→请求报头 *界定的消息 EOS 请求报头是通过报头+联系帧⽅式以 HTTP2 报头来发送的。

请求报头→调⽤定义 *⾃定义元数据调⽤定义→⽅法模式路径TE [授权] [超时] [内容类型] [消息类型] [消息编码] [接受消息类型] [⽤户代理]⽅法→ “:method POST”模式→ “:scheme ” (“http” / “https”)路径→ “:path” {开放的 API 对应的⽅法路径}Authority → “:authority” {授权的对应的虚拟主机域名}TE → “te” “trailers” # ⽤来检测不兼容的代理超时→ “grpc-timeout” 超时时间值超时时间单位超时时间值→ {⾄少8位数字正整数的 ASCII 码字符串}超时时间单位→时 / 分 / 秒 / 毫秒 / 微秒 / 纳秒时→ “H”分→ “M”秒→ “S”毫秒→ “m”微秒→ “u”纳秒→ “n”内容类型→ “content-type” “application/grpc” [(“+proto” / “+json” / {⾃定义})]内容编码→ “gzip” / “deflate” / “snappy” / {⾃定义}消息编码→ “grpc-encoding” Content-Coding接受消息编码→ “grpc-accept-encoding” Content-Coding *("," Content-Coding)⽤户代理→ “user-agent” {结构化的⽤户代理字符串}消息类型→ “grpc-message-type” {消息模式的类型名}⾃定义数据→⼆进制报头 / ASCII 码报头⼆进制报头→ {以“-bin”结尾⼩写的报头名称的 ASCII 码 } {以 base64 进⾏编码的值}ASCII 码报头→ {⼩写报头名称的 ASCII 码} {值}HTTP2 需要⼀个在其他报头之前以“:”开始的保留报头。

无线技术相关术语解释GSM/2GGSM（全球移动通信：Global System For Mobile Communication）是1992年欧洲标准化委员会统一推出的标准，它采用数字通信技术、统一的网络标准，使通信质量得以保证，并可以开发出更多的新业务供用户使用。

GSM移动通信网的传输速度为9.6K/s。

目前，全球的GSM移动用户已经超过5亿，覆盖了1/12的人口，GSM技术在世界数字移动电话领域所占的比例已经超过70%。

由于GSM 相对模拟移动通讯技术是第二代移动通信技术，所以简称2G。

目前，我国拥有8000万以上的GSM用户，成为世界第一大运营网络。

GPRS（通用无线分组业务：General Packet Radio Service）是一种基于GSM 系统的无线分组交换技术，提供端到端的、广域的无线IP连接。

简单的说，GPRS 是一项高速数据处理的技术，其方法是以“分组”的形式传送数据。

网络容量只在所需时分配，不要时就释放，这种发送方式称为统计复用。

目前，GPRS移动通信网的传输速度可达115k/s。

GPRS是在GSM基础上发展起来的技术，是介于第二代数字通信和第三代分组型移动业务之间的一种技术，所以通常称为2.5G。

W AP（无线应用通讯协议：Wireless Application Protocol）是移动通信与互联网结合的第一阶段性产物。

这项技术让使用者可以用手机之类的无线装置上网，透过小型屏幕遨游在各个网站之间。

而这些网站也必须以WML（无线标记语言）编写，相当于国际互联网上的HTML（超文件标记语言）。

打个比喻，GPRS和GSM都是马路，而W AP是在马路上的汽车。

中国移动开通GPRS之后，W AP就行驶在GSM和GPRS两条马路上，而行驶在GPRS的马路上可以提高数据传输速度。

因此，现有W AP上的内容一样可以通过GPRS进行浏览和应用。

W AP是2.5G的协议。

2.5G移动通信,通信工程师的家园,通信人才,求职招聘,网络优化,通信工程,出差住宿,通信企业黑名单:q7U i'H!]-b$K/o&`"d&h其它2.5G技术。

⽹络通信协议（互联⽹协议）阅读⽬录⼀.操作系统基础 操作系统:(Operating System，简称OS)是管理和控制计算机硬件与软件资源的计算机程序，是直接运⾏在“裸机”上的最基本的系统软件，任何其他软件都必须在操作系统的⽀持下才能运⾏。

注：计算机(硬件)－>os－>应⽤软件 有关操作系统详细的介绍和原理请看这⾥>>>，不是你们现在这个阶段需要学习的，还是⽼样⼦，先⼤致了解⼀下就⾏啦。

⼆.⽹络通信原理 2.1 互联⽹的本质就是⼀系列的⽹络协议 当我们通过⾃⼰电脑的浏览器访问京东的时候，，我们是在浏览器上输⼊了⼀个⽹址，但是我们都知道，互联⽹连接的电脑互相通信的是电信号，我们的电脑是怎么将我们输⼊的⽹址变成了电信号然后发送出去了呢，并且我们发送出去的消息是不是应该让京东的服务器能够知道，我们是在请求它的⽹站呢，也就是说京东是不是应该知道我发送的消息是什么意思呢。

是不是发送的消息应该有⼀些固定的格式呢？让所有电脑都能识别的消息格式，他就像英语成为世界上所有⼈通信的统⼀标准⼀样，如果把计算机看成分布于世界各地的⼈，那么连接两台计算机之间的internet实际上就是⼀系列统⼀的标准，这些标准称之为互联⽹协议，互联⽹的本质就是⼀系列的协议，总称为‘互联⽹协议’（Internet Protocol Suite)。

互联⽹协议的功能：定义计算机如何接⼊internet，以及接⼊internet的计算机通信的标准。

先看⼀下⽹络通信的整个流程，下⾯是图解，关于⽹络通信流程的⼤致介绍(包含路由器、交换机、DNS服务器等等的内容，请看这⾥>>>) 2.2 osi七层协议 互联⽹协议按照功能不同分为osi七层或tcp/ip五层或tcp/ip四层 下⾯这些协议简单知道⼀些常⽤的就⾏。

（不是重点）各层的功能简述：【1】物理层：主要定义物理设备标准，如⽹线的接⼝类型、光纤的接⼝类型、各种传输介质的传输速率等。