综合全局寻优静校正使用手册.

一、静校正方法综述几何地震学的理论都是假设观测面是一个水平面，地下传播介质均匀为前提的（何樵登，1986，黄德济等，1989）。

但实际情况并非如此，观测面并不是一个水平面，通常是起伏不平的，地下传播介质通常也不是均匀的，其表层还存在着低降速带的横向变化。

因此，野外观测得到的反射波达到时间，并不满足双曲线方程，而是一条畸变了的双曲线。

静校正就是研究由于地形起伏，地表低降速带横向变化对地震波传播的影响，并对其进行校正，使时距曲线满足于动校正的双曲线方程（图1）。

图1a 静校正前图1b 静校正后静校正有一个十分重要的特点：由于表层低速带的速度十分低，远小于基岩速度。

深浅层反射波的射线路径尽管在低速带以下的各地层中传播时各不相同，但在表层附近几乎都是近于垂直的。

因此，静校正量的大小只与地面位置有关，即对于一道记录中所有采样点来说，静校正值都是相同的，所以称之为静校正，这种条件称之为地表一致性条件。

静校正工作的好坏直接影响叠加效果，决定叠加剖面的信噪比和垂向分辨率（图2）。

实际上，高频静校正异常的作用还相当于高阻低通滤波器，使子波的相位发生畸变，使高频振幅衰减严重。

因此，在处理高分辨率资料时也要高度注意静校正问题。

静校正工作不仅影响叠加效果，而且还影响叠加速度分析的质量（图3）。

图2a 未作静校正的叠加图图2b 作静校正的叠加图美国著名地球物理学家CH.迪克斯教授生前曾说：“解决好静校正就等于解决了地震勘探中几乎一半的问题”。

我国李庆忠院士也总结说：“静校正是处理好地震资料的敲门砖”。

正因如此，自从多次覆盖勘探技术出现开始，世界各国的专家学者对静校正方法进行了大量的研究工作，发展了不同的静校正方法。

静校正方法可分为野外一次静校正，折射波静校正，反射波剩余静校正三种方法。

利用野外直接观测的数据进行整理计算的静校正叫做野外一次静校正，其方法是根据地面高程数据，井口时间以及根据微测井，小折射数据而获得的低降速带厚度、速度等资料将所有炮点和检波点都校正到基准面上，从而去掉表层因素的影响。

GNSS高精度接收机快速使用说明书2018年8月20日目录1 串口数据格式说明 (1)2 基准站和流动站快速切换 (2)2.1 要配置成基准站 (2)2.1.1 方式一：恢复默认配置重启法 (2)2.1.2 方式二：逐条配置法 (2)2.2 要配置成流动站 (3)2.2.1 方式一：恢复默认配置重启法 (3)2.2.2 方式二：逐条配置法 (3)3 基准站和流动站配置 (4)3.1 基准站配置 (4)3.2 流动站配置 (6)4 出厂默认配置 (7)I1串口数据格式说明北云GNSS板卡（接收机）串口数据格式可分为novatel、rtcm、log、fpga四种。

具体定义如下：1)novatel格式：输出标准的NMEA-0183格式协议，具体可见文档《北云GNSS高精度接收机NMEA0183协议说明书》。

2)rtcm格式：基准站模式下默认输出标准的RTCM3.2格式差分数据。

帧头D300开头。

默认输出1074、1084、1114、1124、1006、1033和nav数据帧，不需要单独开启。

默认条件下差分数据量约500字节每秒，卫星数越多，差分数据量越大。

3)log格式：可以输出北云自定义格式的调试信息，便于研发人员进行快速故障定位和数据分析。

4)fgpa格式：可以输出北云自定义格式的原始数据，可用于更深层次的故障定位和数据分析。

注意：1，在novatel格式下，常用指令集均可识别，且指令执行后都会返回“OK”。

2，若需查询串口波特率及格式，可以用log comconfig指令来查询。

3，若需查询各串口输出语句，可用log loglista once 来查询。

4，在rtcm格式下，只识别interfacemode开头的指令。

常用指令集见文档《北云GNSS高精度接收机常用指令集》。

2基准站和流动站快速切换基准站和流动站可以通过串口指令快速切换。

当不确定目前板卡（接收机）是基准站还是流动站时，也可以直接切换。

e-mail:**************For latest product manuals:User’s GuideCL514-PLUSAutomatedUniversal RTD Calibrator®Shop online atIt is the policy of OMEGA Engineering, Inc. to comply with all worldwide safety and EMC/EMI regulations that apply. OMEGA is constantly pursuing certification of its products to the European New Approach Directives. OMEGA will add the CE mark to every appropriate device upon certification.The information contained in this document is believed to be correct, but OMEGA accepts no liability for any errors it contains, and reserves the right to alter specifications without notice.WARNING: These products are not designed for use in, and should not be used for, human applications.Page 1• Easy to useWith the CL514-PLUS you can check & calibrate all your RTD instruments and measure RTD Sensors. Automatic indication of connections on the display for simple hookups.• Take it without into the shop, plant or field Carry it without worry - it comes protected with a rubber boot and rugged, low profile switch. Easy to operate even in the dark areas of the plant with the backlit display.• Calibrate directly in temperature (°C & °F)Stop carrying around a decade box and RTDresistance tables. The CL514-PLUS works with the RTDs you use including Platinm 100 (alpha = 3850, 3902, 3926) & 1000 (alpha = 3850, 3750) Ohm, Copper 10 & 50 Ohm, Nickel 100 and 120 Ohm. Easily set any value quickly to within 0.1° with the adjustable digital potentiometer “DIAL ” plus store any three temperatures for instant recall with the OMEGA switch.• Calibrate quickly with automatic output stepping Choose between 2, 3, 5, 11 and 21 steps toautomatically increment the output in 100%, 50%, 25%, 10% or 5% of span. Select the step time to match your system from 5, 6, 7, 8, 10, 15, 20, 25, 30 and 60 seconds.• Compatible with all process instruments Connect directly to the RTD inputs of smarttransmitters, PLCs, DCS and multichannel recorders and verify their outputs or displays. Works with older instruments with fixed excitation currents and newer multichannel instruments that switch the excitation current between input channels.• Measure RTD SensorsTrouble shoot sensor connections and find broken wires with patented technology. Connect your two, three or four wire RTDs and the CL514-PLUS automatically detects the connections and measures the RTD in degrees C or F.Page 2OMEGA SWITCHSOURCE: Instantly output two preset RTD temperatures by moving the OMEGA switch to the “LO” position or “HI” position. For fast three point checks select the “DIAL ” position. The CL514-PLUS will remember the last “DIAL ” value, even with the power off.These values can easily be changed to suit the calibration requirements. The temperatures stored in the HI and LO positions are also used for Auto Stepping.READ: Slide the switch to the DIAL position. The CL514-PLUS will display the current temperature from the RTD sensor. Slide the switch to HI and the highest temperature measured since turn-on or reset will be displayed; slide the switch to LO and the lowest temperature measured since turn-on or reset will be displayed.2 SOURCE/OFF/READ SwitchSelect “SOURCE ” to output in °C, °F or ohms. Select “READ ” to read an RTD sensor or ohms.3 PUSH-BUTTON KNOBSOURCE: Turn the knob to adjust the outputlevel. Turn clockwise to increase the output, °1.0 n i t u p t u o e h t e s a e r c e d o t e s i w k c o l c r e t n u o c steps at a time. Push down and turn the PUSH-BUTTON knob for faster dialing.Press and hold the knob for two seconds to store desired OMEGA HI/LO points in SIMULATE mode. Continue to press and hold the knob for two more seconds to start the automatic ramping.READ: Press and hold to transfer the current temperature into the OMEGA HI/LO points. This clears the HI/LO temperature readings which will update as the temperature changes.Double click the knob to get into the CL514-PLUS Configuration Mode. Use configuration to select °C or °F , T/C Type, Backlight On/Off, Step Size, Step Time and Auto Off On/Off.CHANGING BATTERIESLow battery is indicated by “BAT” on the display. Approximately one to four hours of typical operation remain before the CL514-PLUS will automatically turn off. T o change the batteries; remove the rubber boot, remove the battery door from the back of the unit by sliding the door downward. This allows access to the battery compartment. Replace with four (4) “AA ” 1.5V batteries being careful to check the polarity. Replace the battery door and replace the boot. All stored configuration options (RTD Type, OMEGA Memories, etc., are reset to factory settings when the batteries are removed.Note: Alkaline batteries are supplied and recommended for maximum battery life and performance.values to factory defaults.Turn the 3 PUSH-BUTTON knob to movethrough the menu. Press the 3 PUSH-BUTTONknob to toggle between OFF and ON or to scrollthrough the settings.Page 3Page 4SOURCEChoose this function to provide a simulated RTD signal into controllers, temperature transmitters, indicators or any input devices that measure thermocouple sensors.1)Disconnect the RTDsensor fromthe devicebe calibrated.2) Select “SOURCE ” with slide switch 2.3) 3 or 4 wires matching the connections of sensor that was just removed.The output is adjusted in 0.1° (or 0.01/0.1 increments by turning the knob 3 while OMEGA switch 1 with 10° (or 1.00/10.0 ohm) increments.The OVERLOAD indicator will light if voltage or current is detected by the calibrator.READChoose this function to measure temperatures with an RTD probe or sensor.1) Disconnect the RTD sensor from any other device.2) Select “READ ” with slide switch 2.3) Place the OMEGA switch into the READ position.4) Connect the CL514-PLUS to the device using 2, 3 or 4 wires.The CL514-PLUS measures the temperature signal and constantly updates the display with the current temperature reading. Move the OMEGA switch to MAX to see the highest temperature reading and to MIN to see the lowest temperature reading. Press and hold the knob 3 to clear the MAX and MIN readings.The OVERLOAD indicator will light if excessive voltage or current is detected by the calibrator.Page 5To change the Automatic Stepping settingsDouble click the 3 PUSH-BUTTON knob at any time the unit is on and the following display will appear for 30 seconds:Turn the 3 PUSH-BUTTON knob to move through the menu. Press the 3 PUSH-BUTTON knob to toggle between OFFand ON or to change the STEPS and the STEP TIME settings.These settings are remembered even with the power off. EXIT MENU - exits this menu immediately and saves anychanges. Menu will automatically exit after 30 seconds of inactivity.STEPS - pressing the knob will cycle through 2, 3, 5, 11 and 21 steps then reverse dircetion. The endpoints of the steps are based on the values stored in the HI and LO EZ-CHECK outputs. 2 steps will automatically switch between the values stored in the HI & LO OMEGA (0 & 100%).3 steps between the HI, Midpoint and LO OMEGA (0, 50 & 100%).5 steps between the HI and LO OMEGA in 25% increments (0, 25, 50, 75 & 100%).11 steps between the HI and LO OMEGA in 10% increments (0, 10, 20...80, 90 &100%).21 steps between the HI and LO OMEGA in 5% increments (0, 5, 10... 90, 95 & 100%).STEP TIME - pressing the knob will cycle through 5, 6, 7, 8, 9, 10, 15, 20, 25, 30 and 60 seconds. To start the Automatic SteppingStart automatic stepping or ramping by placing the OMEGA Switch into the HI or LO position then press and hold the 3 PUSH-BUTTON knob for 6 seconds (the word STORE will appear on the display after 3 seconds and continue to press the PUSH-BUTTON knob) until the wordSTEPPING appears on the display. The word STEPPING will appear on the display anytime the selected automatic function is running. Stop the stepping by again pressing and holding the 3 PUSH-BUTTON knob for 3 seconds.STORING HI and LO OMEGA OutputsChoose this function to provide a simulated thermocouple signal into controllers, temperature transmitters, indicators or any other input device that measure thermocouple sensors..1) Store your high (SPAN) output temperature by moving the OMEGA switch to the HI position and turn the 3 PUSH-BUTTON knob until the desired temperature is on the display. Press and hold the knob until STORED appears to store the value. Release the PUSH-BUTTON knob.2) Store your low (ZERO) output temperature by moving the OMEGA switch to the LO position and turn the 3 PUSH-BUTTON knob until the desired temperature is on the display. Press and hold the PUSH-BUTTON knob until STORED appears to store the value. Release the PUSH-BUTTON knob. 3) Instantly output your SPAN and ZERO temperature outputs by moving the OMEGA switch between HI and LO. Y ou may also select any third temperature output (such as mid-range) using the SET position on the OMEGA switch.EXIT 15> STEPS 3 STEP TIME 8 AUTO OFF ONPage 6(Unless otherwise indicated all specifications are rated from a nominal 23°C,70% RH for 1 year from calibration)Page 7This product is calibrated on equipment traceable to NIST and includes a Certificate of Calibration. Test Data is available for an additional charge.Included:Rubber Boot, Four “AA” Alkaline batteries, Certificate of CalibrationLarge Carrying Case Part No. SC-530 Omega RTD Wire Kit2 Red & 2 Black Leads with Retractable Shield Banana Plugs & Spade LugsPage 8WARRANTY/DISCLAIMEROMEGA ENGINEERING, INC. warrants this unit to be free of defects in materials and workmanship for a period of 37 months from date of purchase. OMEGA’s WARRANTY adds an additional one (1) month grace period to the normal three (3) year product warranty to cover handling and shipping time. This ensures that OMEGA’s customers receive maximum coverage on each product.If the unit malfunctions, it must be returned to the factory for evaluation. OMEGA’s Customer Service Department will issue an Authorized Return (AR) number immediately upon phone or written request. U pon examination by OMEGA, if the unit is found to be defective, it will be repaired or replaced at no charge. 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准噶尔盆地复杂山地区分方位地震处理关键技术及应用
王晨;罗勇;冷雪梅;张欣吉;郭琪;彭玉林
【期刊名称】《新疆地质》
【年(卷),期】2024(42)1
【摘要】准噶尔盆地南缘山前冲断带是我国西部重要的油气勘探领域,构造复杂,逆冲断裂发育特征为油气勘探带来巨大挑战。

随“两宽一高”资料的普及,全方位处
理模式愈发难以满足深层精细勘探的需求。

本文以安集海背斜为例,对下组合方位
各向异性问题,提出一套完整的分方位处理流程,包括分方位速度分析、分方位全局
寻优剩余静校正、OVT域叠前时间偏移及加权叠加技术。

这些技术的应用有效地
改善了该地区断点断裂不清晰和构造样式存在多解性的问题,具一定生产推广价值。

【总页数】6页(P133-138)
【作者】王晨;罗勇;冷雪梅;张欣吉;郭琪;彭玉林
【作者单位】中国石油新疆油田分公司勘探开发研究院地球物理研究所
【正文语种】中文
【中图分类】P631.4
【相关文献】
1.复杂山地三维地震资料目标处理的关键技术——以大湾构造为例
2.双复杂山地
区地震资料处理关键技术研究
——以博格达山地二维为例3.炮检分离浮动基准面处理方法在复杂山地地震成像
中的应用——以准噶尔盆地南缘为例4.塔里木盆地库车复杂山地地震资料处理关
键技术应用研究5.准噶尔盆地南缘复杂山地地震资料处理技术和效果
因版权原因，仅展示原文概要，查看原文内容请购买。

南方GPS 产品系列灵锐S60静态GPS测量系统南方测绘仪器二○○六年十二月目录第一章 S60GPS测量系统简介 (3)1.1 静态S60系统概述 (3)静态S60测量系统特点 (3)静态S60测量系统主要技术参数 (3)测量系统的基本配置 (4)1.2 S60GPS测量系统的硬件 (4)1.2.1 S60GPS接收机 (4)电池、充电器及操作 (5)通讯电缆 (6)测高片 (7)1.3 灵锐S60GPS测量系统软件组成 (7)第二章 S60 GPS测量系统实测 (8)2.1 概述 (8)系统作业模式 (8)静态相对定位模式 (8)2.3 GPS网的技术设计 (9)测量的精度标准 (9)网的图形设计 (9)基线长度 (11)网的基准 (11)2.4 选点与埋石 (12)选点 (12)埋石 (12)S60 GPS测量系统的野外作业 (12).1制定观测计划 (12)安置及启动仪器 (14)如何量取天线高即仪器高 (14)S60接收机使用注意事项 (15)第三章 S60GPS测量系统文件及操作 (16)S60文件系统简介与文件接口 (16)3.2 初始界面 (16)3.3 设置模式 (16)3.4 数据采集 (19)第四章 S60内业数据传输 (22)4.1 如何进行数据传输 (22)4.2 配置文件的使用 (22)4. 3 S60助手的使用. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 附录A第一章 S60GPS测量系统简介1.1 静态S60系统概述随着计算和通讯持续覆盖许多消费领域，功能也变得愈来愈复杂，许多的测量用户也期望自己手中的电子测量生产工具有高级的用户接口及较强的产品性能。

南方S60静态GPS测量系统在保持传统机型数据安全、操作简单等特点的基础上，在电子产品的核心部件——处理器中采用了最新的ARM架构使得该系统产品在功能、性能、速度及功耗等方面满足了用户更高的要求。

1.适用范围适用于指导TW-5040型综合校准仪的操作及维护。

1.1技术指标1.2 注意事项a）使用人员在使用仪器前必须认真阅读本作业指导书并严格遵照执行。

b）设备离开采样设备间前，需完整填写设备出入库记录；使用完毕后，及时清洁仪器，并完整填写设备使用记录；设备管理员负责仪器的周期检定和维修，并做好相关记录。

c）若使用校准仪机内电池工作，请先检查电池电量是否充足，不足应及时充电；d）校准前请先确认气路连接是否正确；e）勿在易燃气体环境中使用，以免发生爆炸或火灾；f）校准仪应存放在阴凉、干燥之处，避免雨雪的侵袭；2.参考资料2.1 TW-5040型综合校准仪使用说明书。

3. 工作程序3.1 主机视图及说明仪器正面视图仪器侧面视图⑴手柄⑵显示屏⑶打印机接口⑷温度传感器⑸DC12.6V电源接口⑹按键皂膜管出气口⑺5-80L进气口⑻5-80L出气口⑼微压“+”⑽微压“-”⑾表压“+”⑿⑿表压“-”⒀1500-5000ML皂膜管进气口⒁1500-5000ML皂膜管⒂1500-5000ML皂膜管注液口⒃1500-5000ML皂膜起膜器⒄100-1500ML皂膜管进气口⒅100-1500ML皂膜管⒆100-1500ML皂膜管注液口⒇100-1500ML皂膜起膜器3.2 按键操作键：执行开关机功能。

键：执行参数修改和菜单选择功能。

键：执行退出操作。

键：执行确定功能在菜单选择状态时，按、键可以循环选中菜单；按键执行选中的菜单功能；按键退回到上一级菜单。

参数修改时，按、键有循环移位功能，可以选中需要修改的位；按、键可以对选中的位进行在0~9之间循环修改；按键确认修改好的数字；按键取消本次修改操作，原数据保持不变。

3.3 开关机操作若仪器使用外部交流适配器工作，在主机未开机时，接入外部电源后，显示充电界面。

无论使用交流适配器或机内电池，在仪器关机状态一直按住键，仪器开机进入自检状态，显示如下：开机状态下，持续按住键，则可关机。