CN104092727B - A kind of seismic instrument remote support system and method based on 3G Virtual Private Network - Google Patents

A kind of seismic instrument remote support system and method based on 3G Virtual Private Network Download PDF

Info

Publication number
CN104092727B
CN104092727B CN201410260324.9A CN201410260324A CN104092727B CN 104092727 B CN104092727 B CN 104092727B CN 201410260324 A CN201410260324 A CN 201410260324A CN 104092727 B CN104092727 B CN 104092727B
Authority
CN
China
Prior art keywords
remote
remote support
instrument
seismic instrument
seismic
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201410260324.9A
Other languages
Chinese (zh)
Other versions
CN104092727A (en
Inventor
夏颖
杨茂君
甘志强
刘卫平
张留争
孙乐意
王艳
赵楠
朱萍
王亮
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BGP Inc
Original Assignee
BGP Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by BGP Inc filed Critical BGP Inc
Priority to CN201410260324.9A priority Critical patent/CN104092727B/en
Publication of CN104092727A publication Critical patent/CN104092727A/en
Application granted granted Critical
Publication of CN104092727B publication Critical patent/CN104092727B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

A kind of seismic instrument remote support system and method based on 3G Virtual Private Network, belong to computer program and technical field of geophysical exploration.Remote support terminal is a kind of equipment being connected into internet, it can be communicated by internet with the main control module in the instrument bin of construction site, remote support information needed for receiving seismic instrument host at the construction field (site), while the remote operation instruction of transmission technology support staff;The remote support information needed refers to realize the essential data informations of functions such as the access of seismic instrument remote desktop, remote application guidance, remote failure exclusion, long-range quality monitoring;The main control module is the core of remote support system at the construction field (site), it is connect by the common twisted pair network cable of RJ45 interfaces with self-diagnosis information acquisition module and seismic instrument host, remote support information needed for receiving seismic instrument host at the construction field (site), and forward the control command from remote support terminal.

Description

A kind of seismic instrument remote support system and method based on 3G Virtual Private Network
Technical field
The present invention relates to a kind of seismic instrument remote support systems and method based on 3G Virtual Private Network, belong to calculating Machine program and technical field of geophysical exploration.
Background technology
Remote control technology refers to technical staff is connected to the computer that need to be controlled in strange land by computer network, will be by The desktop environment of control computer is shown to local terminal, to realize to works such as the configuration of remote computer, software installation, modifications Make, this technology has been widely used the fields such as telecommuting, long-distance education, remote monitoring at present.But since seismic instrument is applied The limitation of the particularity and network technology of work condition makes it not promoted the use of on a large scale in field of seismic exploration.
3rd generation mobile communication technology 3G is a kind of cellular mobile telecommunications technology for supporting high speed data transfer, it will be wireless Communication is combined with multimedia communications such as Internets, and rate generally in hundreds of kbps or more, may be implemented stable, timely, high Effect, quick data transmission.
VPDN (Virtual Private Dial-up Networks, VPDN) is used based on dialing The Virtual Private Dialup Network business at family, it uses tunneling technique, i.e., in the interface of source LAN and public network using data as negative Load, which is encapsulated in, a kind of can unseal data in the interface of purpose LAN and public network in the data format of public transfers on network Dress takes out load, realizes the transmitting of data.Wherein, communications protocol is to ensure that data are smoothly encapsulated, transmit and decapsulated It is crucial.Virtual Private Network technology can provide safe and reliable guarantee for " point-to-point " data transmission.
With the raising of the development and geophysical exploration demand of social the relevant technologies, as seismic prospecting data collecting core The seismic instrument of heart equipment also towards more main road number, stronger adaptive capacity to environment and can support various new exploitation method Direction is developed.In seismic prospecting work progress, when instrument host system or field arrangement generation generic failure, operator can It is debugged in time according to existing professional knowledge and construction experience.When insoluble failure problems occur, then need specially Family's (relevant speciality technical staff) is solved by way of telephonic communication or on-site support, and wherein telephonic communication can about solve The technical issues of 20% or so the technical issues of, on-site technical support can solve about 80% or so.Obviously, on-site technical support Current more effective field failure method for removing, but with when ductility, a series of cost problem can be brought:(1) technology The business travel cost back and forth of support engineer;(2) live production suspension induced losses;(3) dimension again generated to discovery behind scene without spare part Protect cost;(4) HSE risk cost of the technical support engineer during round-trip road and on-site support.Therefore, it is necessary to establish one Seismic instrument tele-control system of the kind based on network transmission so that related technical personnel can be to far away from construction thousands of miles away Operation field carries out the work such as the guidance of instrument remote application, remote failure exclusion, long-range quality monitoring, ensures exploration production project Trouble-free operation.
Invention content
For overcome the deficiencies in the prior art, it is long-range to provide a kind of seismic instrument based on 3G Virtual Private Network by the present invention Support system and method.
A kind of seismic instrument remote support system is believed by remote support terminal, main control module, 3G network module, self diagnosis Cease acquisition module and lan interface module composition;
The remote support terminal is a kind of equipment being connected into internet, can be with the master control mould in the instrument bin of construction site Block is communicated by internet, and the remote support information needed for receiving seismic instrument host at the construction field (site) is sent out simultaneously The remote operation instruction of feed technique support staff;
The remote support information needed refers to realize that seismic instrument remote desktop accesses, remote application instructs, long-range The essential data information of the functions such as troubleshooting, long-range quality monitoring;
The main control module is the core of remote support system at the construction field (site), it passes through the common double of RJ45 interfaces Hoisting net line is connect with self-diagnosis information acquisition module and seismic instrument host, for receiving seismic instrument host at the construction field (site) Remote support information needed, and forward the control command from remote support terminal;
The 3G network module refers to being capable of providing 3G virtual Private Network (Virtual Private Dial-up Networks, VPDN) service internet communication module, it can be connect with main control module by USB interface, is driven by main control module It moves and dials and be connected into internet;
The self-diagnosis information acquisition module is connect with main control module, and the self diagnosis for obtaining seismic instrument host is believed Breath, and the information is packaged via main control module, remote control terminal is sent to by 3G network;
The self-diagnosis information refers to the online real-time of the peripheral hardware of seismic instrument host, interlock circuit interface, RAM, ROM etc. Detection information;
The lan interface module has gateway function, for being LAN optimization 3G Virtual Private Networks in instrument room Network provides interface.
A kind of seismic instrument remote support system method based on 3G Virtual Private Network, seismic instrument remote support system Remote application guidance, remote failure exclude, the application of long-range quality control;Contain following steps;
(1) remote application guiding step:
Step 90:Log in seismic instrument remote support system;
Step 110:Remote support terminal landing instrument host desktop environment;
Step 111:The technical barrier encountered in production is analyzed in real time by digitlization telecommunication technique and proposes to solve Method;
Step 112:Complete remote application guidance;
Step 91:Exit seismic instrument remote support system;
Step 110 medium-long range supports that terminal landing seismic instrument host table environment is needed through 3G network, by It is realized using the remote control software of dedicated algorithms;
The remote control software using dedicated algorithms refers to support different operating system (Linux or Windows), and The seismic instrument host that technical support personnel need to be controlled in strange land by network-in-dialing is can assist in, its desktop environment is shown To local remote support terminal, answering to work such as the software installations, parameter configuration and modification of construction site instrument host is completed Use program;
(2) remote failure excludes step (instrument application software fault):
Step 90:Log in seismic instrument remote support system;
Step 210:Instrument application software fault;
Step 211:In remote support terminal landing instrument host desktop environment;
Step 212:It is solved the problems, such as by way of remote operation or online direction;
Step 91:Exit seismic instrument remote support system;
(3) remote failure excludes step (instrument host hardware or auxiliary device failure):
Step 90:Log in seismic instrument remote support system;
Step 220:Instrument host hardware or auxiliary device failure;
Step 221:Instrument host self-diagnosis information (code) is obtained in remote support terminal;
Step 222:Judge instrument failure according to self-diagnosis information (code);
Step 223:It is debugged by way of remote online guidance;
Step 91:Exit seismic instrument remote support system;
Self-diagnosis information refers to the peripheral hardware of seismic instrument host, interlock circuit interface, RAM, ROM etc. in the step 222 On-line real-time measuremen information;
(4) long-range quality control step:
Step 90:Log in seismic instrument remote support system;
Step 310:In remote support terminal, instrument key manufacturing parameter and alignment apparatus situation are checked, and Shi Faxian hidden danger of quality;
Step 311:By 3G network, the quality control information in production is back to remote support terminal in real time;
Step 312:Production status is checked in real time;
Step 313:Complete long-range quality monitoring;
Step 91:Exit seismic instrument remote support system;
Check that production status refers to being completed to the long-range of acquisition earthquake record by related software in the step 312 in real time Analysis in real time.
Compared with prior art, the present invention having the following advantages that and advantageous effect:
(1) the invention enables technical support personnels effectively to be excluded with the comprehensive method of remote operation and online direction 80% or more site problems;
(2) due to can in real time be examined to the seismic instrument key factor of production and production status by long-range mode It looks into, avoids the probability of happening of quality of production accident to a certain extent;
(3) by using seismic instrument remote support system, technical support personnel can be to digitize in a manner of telecommunication Guidance instrument operator carries out parameter setting and the inspection of complicated applications, and the technical barrier in production is analyzed and carried in real time For solution;
(4) present invention is connected into mutually using 3G virtual Private Network (Virtual Private Dial-up Networks, VPDN) Networking also ensures while ensureing message transmission rate and safety in any place with 3G network signal, not by Data transmission range limits, you can smoothly realizes the remote support of seismic instrument.
Description of the drawings
When considered in conjunction with the accompanying drawings, by referring to following detailed description, can more completely more fully understand the present invention with And be easy to learn the advantage that many of which is adjoint, but attached drawing described herein is used to provide further understanding of the present invention, The part of the present invention is constituted, the illustrative embodiments of the present invention and their descriptions are used to explain the present invention, does not constitute to this hair Bright improper restriction, such as figure are wherein:
Fig. 1 is seismic instrument remote support system example structure schematic diagram proposed by the present invention.
Fig. 2 is seismic instrument remote support system embodiment applicating flow chart proposed by the present invention.
Present invention will be further explained below with reference to the attached drawings and examples.
Specific implementation mode
Obviously, those skilled in the art belong to the guarantor of the present invention based on many modifications and variations that spirit of the invention is done Protect range.
Embodiment 1:As shown in Figure 1 and Figure 2, for overcome the time caused by existing seismic instrument field failure wipe-out mode, Cost problem in terms of economic dispatch proposes the present invention, introduces a kind of seismic instrument remote support system, it is intended to realize logical based on 3G Interrogate the remote support information data real-time Transmission of network so that technical staff can be connected to the seismic instrument that need to be controlled in strange land Host, to achieve the purpose that exclude field failure in time.
The present invention is intended to provide a kind of seismic instrument tele-control system, is based on 3G virtual Private Network (Virtual Private Dial-up Networks, VPDN) realize seismic instrument remote support data real-time reception and transmission, reach timely solution The purpose of site problems.
The present invention is achieved by the following technical solutions:
A kind of seismic instrument remote support system is believed by remote support terminal, main control module, 3G network module, self diagnosis Cease acquisition module and lan interface module composition;
The remote support terminal is a kind of equipment being connected into internet, can be with the master control mould in the instrument bin of construction site Block is communicated by internet, and the remote support information needed for receiving seismic instrument host at the construction field (site) is sent out simultaneously The operational order of feed technique support staff;
The remote support information needed refers to realize that seismic instrument remote desktop accesses, remote application instructs, long-range The essential data information of the functions such as troubleshooting, long-range quality monitoring;
The main control module is the core of remote support system at the construction field (site), it passes through the common double of RJ45 interfaces Hoisting net line is connect with self-diagnosis information acquisition module and seismic instrument host, for receiving seismic instrument host at the construction field (site) Remote support information needed, and forward the control command from remote support terminal;
The 3G network module refers to being capable of providing 3G virtual Private Network (Virtual Private Dial-up Networks, VPDN) service internet communication module, it can be connect with main control module by USB interface, is driven by main control module It moves and dials and be connected into internet;
The self-diagnosis information acquisition module is connect with main control module, and the self diagnosis for obtaining seismic instrument host is believed Breath, and the information is packaged via main control module, remote control in a manner of " point-to-point " is sent to 3G Virtual Private Network Terminal;
The self-diagnosis information refers to the online real-time of the peripheral hardware of seismic instrument host, interlock circuit interface, RAM, ROM etc. Detection information;
The lan interface module has gateway function, for being LAN optimization 3G Virtual Private Networks in instrument room Network provides interface;
By using above-mentioned seismic instrument remote support system, instrument support staff can be in the remote support in strange land The heart obtains the self-diagnosis information or straight of the seismic instrument host of exploration construction site by safe and reliable data transfer path It connects and logs on to its desktop environment, complete the work such as the guidance of instrument remote application, remote failure exclusion, long-range quality monitoring, in time Solve site problems.
Embodiment 2:As shown in Figure 1 and Figure 2,
The specific implementation mode of the present invention is described in further detail below in conjunction with attached drawing, here, the present invention Exemplary embodiment and its explanation are but not as a limitation of the invention for explaining the present invention.
As shown in Figure 1, a kind of seismic instrument remote support system, can be used for completing remote application guidance, remote failure row It removes and long-range quality control operation, it is characterised in that:Including remote support terminal 10,3G module 20, main control module 30, autodiagnosis Disconnected data obtaining module 40 and lan interface module 50 form;
The remote support terminal 10 is a kind of computer equipment with certain data-handling capacity being connected into internet, It can be communicated by internet with the main control module in the instrument bin of construction site, construction site seismic detector is come from for receiving The remote support information needed of device host, while sending control command;
The 3G module 20 is using the MC8360 modules of Zhong Xing companies as core, including USB interface, switch, power supply, antenna etc. Part;3G module is connect by USB interface with main control module, and 3G Virtual Private Network access services are provided;
The main control module 30 is the minimum system including power supply using PXA270 as core, hardware system transplanting (SuSE) Linux OS, the driver and its network dial program of intension 3G module;
The self-diagnosis information acquisition module 40 is connect by the common twisted pair network cable of RJ45 interfaces with main control module 30, is used In the self-diagnosis information for obtaining seismic instrument host, which is packaged through main control module and is sent to far by 3G Virtual Private Network Journey supports terminal;
The lan interface module 50 is connect by the common twisted pair network cable of RJ45 interfaces with main control module 30, has net Function is closed, for providing interface for LAN optimization 3G Virtual Private Network in instrument room;
With reference to shown in Fig. 2, a kind of seismic instrument remote support system method based on virtual 3G network contains following step Suddenly;
The remote application guidance of seismic instrument remote support system, remote failure exclude, the application of long-range quality control walks It is rapid as follows:
(1) remote application guiding step:
Step 90:Log in seismic instrument remote support system;
Step 110:Remote support terminal landing instrument host desktop environment;
Step 111:The technical barrier encountered in production is analyzed in real time by digitlization telecommunication technique and proposes to solve Method;
Step 112:Complete remote application guidance;
Step 91:Exit seismic instrument remote support system.
Step 110 medium-long range supports terminal landing instrument host desktop environment to need through 3G Virtual Private Network, It is realized by the remote control software of dedicated algorithms is used.
The remote control software using dedicated algorithms refers to support different operating system (Linux or Windows), and The seismic instrument host that technical support personnel need to be controlled in strange land by network-in-dialing is can assist in, its desktop environment is shown To local remote support terminal, answering to work such as the software installations, parameter configuration and modification of construction site instrument host is completed Use program.
(2) remote failure excludes step (instrument application software fault):
Step 90:Log in seismic instrument remote support system;
Step 210:Instrument application software fault;
Step 211:In remote support terminal landing instrument host desktop environment;
Step 212:It is solved the problems, such as by way of remote operation or online direction;
Step 91:Exit seismic instrument remote support system.
(3) remote failure excludes step (instrument host hardware or auxiliary device failure):
Step 90:Log in seismic instrument remote support system;
Step 220:Instrument host hardware or auxiliary device failure;
Step 221:Instrument host self-diagnosis information (code) is obtained in remote support terminal;
Step 222:Judge instrument failure according to self-diagnosis information (code);
Step 223:It is debugged by way of remote online guidance;
Step 91:Exit seismic instrument remote support system.
Self-diagnosis information refers to seismic instrument host peripheral, interlock circuit interface, RAM, ROM etc. in the step 222 On-line real-time measuremen information.
(4) long-range quality control step:
Step 90:Log in seismic instrument remote support system;
Step 310:In remote support terminal, instrument key manufacturing parameter and alignment apparatus situation are checked, and Shi Faxian hidden danger of quality;
Step 311:By 3G network, the quality control information in production is back to remote support terminal in real time;
Step 312:Production status is checked in real time;
Step 313:Complete long-range quality monitoring;
Step 91:Exit seismic instrument remote support system.
Check that production status refers to being completed to the remote of acquired earthquake record by related software in the step 312 in real time Journey is analyzed in real time;
A kind of seismic instrument remote support system, including:
Remote support terminal, refer to it is a kind of being connected into internet, there is certain data-handling capacity, and seismic detector is installed The terminal device of device remote support system application software.Can with the main control module in the instrument bin of construction site by internet into Row communication, the remote support information needed for receiving seismic instrument host at the construction field (site), while sending control command;
Main control module, the core of remote support system at the construction field (site), it passes through the common multiple twin nets of RJ45 interfaces Line is connect with self-diagnosis information acquisition module and seismic instrument host, for receiving the remote of seismic instrument host at the construction field (site) Journey supports information needed, and forwards the control command from remote support terminal;
3G network module is that one kind being capable of providing 3G virtual Private Network (Virtual Private Dial-up Networks, VPDN) service internet communication module, it can be connect with main control module by USB interface, is driven by main control module It moves and dials and be connected into internet;
Self-diagnosis information acquisition module is connect by the cable of RJ45 interfaces with main control module, peripheral hardware, phase for acquisition Close the dedicated unit of the on-line real-time measuremens information such as circuit interface, RAM, ROM;
Lan interface module has gateway function, for being that LAN optimization virtual private 3G is virtually special in instrument room Interface is provided with network;
There is the seismic instrument remote support system guidance of seismic instrument remote application, seismic instrument remote failure to exclude And the long-range quality monitoring function of seismic instrument;
The seismic instrument remote application guiding function refers to technical device support staff to digitize in a manner of telecommunication Guidance instrument operator carries out parameter setting and the inspection of complicated applications, and the technical barrier in production is analyzed and carried in real time For solution;
The seismic instrument remote failure exclusion function refers to technical device support staff according to long-range seismic instrument autodiagnosis Disconnected information, and the comprehensive method of remote operation and online direction is combined, failure Producing reason is analyzed, proposes solution, and When exclude field failure;
The long-range quality monitoring function of seismic instrument refers to that technical device support staff passes through remote support end in strange land End checks the seismic instrument key factor of production and production status in real time, finds that the quality in seismic instrument production is hidden in time Suffer from.
As described above, being explained in detail to the embodiment of the present invention, as long as but essentially without this hair of disengaging Bright inventive point and effect can have many deformations, this will be readily apparent to persons skilled in the art.Therefore, this The variation of sample is also integrally incorporated within protection scope of the present invention.

Claims (2)

1. a kind of seismic instrument remote support system, it is characterised in that by remote support terminal, main control module, 3G network module, Self-diagnosis information acquisition module and lan interface module composition;
The remote support terminal is a kind of equipment being connected into internet, can be logical with the main control module in the instrument bin of construction site It crosses internet to be communicated, the remote support information needed for receiving seismic instrument host at the construction field (site), while sending skill The operational order of art support staff;
The remote support information needed refers to realize that seismic instrument remote desktop accesses, remote application instructs, remote failure It excludes and the essential data information of long-range quality monitoring function;
The main control module is the core of remote support system at the construction field (site), it passes through the common multiple twin nets of RJ45 interfaces Line is connect with self-diagnosis information acquisition module and seismic instrument host, for receiving the remote of seismic instrument host at the construction field (site) Journey supports information needed, and forwards the remote control command from remote support terminal;
The 3G network module refer to be capable of providing 3G virtual Private Network (Virtual Private Dial-up Networks, VPDN) the internet communication module serviced, it can be connect with main control module by USB interface, is driven by main control module and dialled It is connected into internet;
The self-diagnosis information acquisition module is connect with main control module, the self-diagnosis information for obtaining seismic instrument host, and The information is packaged via main control module, remote control terminal is sent to by 3G network;
The self-diagnosis information refers to the on-line real-time measuremen of the peripheral hardware of seismic instrument host, interlock circuit interface, RAM and ROM Information;
The lan interface module has gateway function, for being carried for LAN optimization 3G Virtual Private Network in instrument room For interface.
2. a kind of seismic instrument remote support system method based on 3G Virtual Private Network, which is characterized in that wanted for right Ask the seismic instrument remote support system described in 1, the remote application guidance of seismic instrument remote support system, remote failure row Remove, the applying step of long-range quality control it is as follows:
(1) remote application guiding step:
Step 90:Log in seismic instrument remote support system;
Step 110:Remote support terminal landing instrument host desktop environment;
Step 111:The technical barrier encountered in production is analyzed in real time by digitlization telecommunication technique and proposes solution;
Step 112:Complete remote application guidance;
Step 91:Exit seismic instrument remote support system;
Step 110 medium-long range supports that terminal landing instrument host desktop environment is needed through 3G Virtual Private Network, by It is realized using the remote control software of dedicated algorithms;
The remote control software using dedicated algorithms refers to supporting that different operating system, the different operating system are Linux or Windows, and can assist in the seismic instrument master that technical support personnel need to be controlled in strange land by network-in-dialing Its desktop environment is shown to local remote support terminal by machine, and software installation, the parameter of construction site instrument host are matched in completion Set the application program with modification;
(2) remote failure excludes step:
Step 90:Log in seismic instrument remote support system;
Step 210:Instrument application software fault;
Step 211:In remote support terminal landing instrument host desktop environment;
Step 212:It is solved the problems, such as by way of remote operation or online direction;
Step 91:Exit seismic instrument remote support system;
(3) remote failure excludes step:
Step 90:Log in seismic instrument remote support system;
Step 220:Instrument host hardware or auxiliary device failure;
Step 221:Instrument host self-diagnosis information is obtained in remote support terminal;
Step 222:Judge instrument failure according to self-diagnosis information;
Step 223:It is debugged by way of remote online guidance;
Step 91:Exit seismic instrument remote support system;
Self-diagnosis information refers to the online of the peripheral hardware of seismic instrument host, interlock circuit interface, RAM and ROM in the step 222 Real-time detection information;
(4) long-range quality control step:
Step 90:Log in seismic instrument remote support system;
Step 310:In remote support terminal, instrument key manufacturing parameter and alignment apparatus situation are checked, sent out in time Existing hidden danger of quality;
Step 311:By 3G network, the quality control information in production is back to remote support terminal in real time;
Step 312:Production status is checked in real time;
Step 313:Complete long-range quality monitoring;
Step 91:Exit seismic instrument remote support system;
Check that production status refers to being completed to the long-range real-time of acquisition earthquake record by related software in the step 312 in real time Analysis.
CN201410260324.9A 2014-06-12 2014-06-12 A kind of seismic instrument remote support system and method based on 3G Virtual Private Network Active CN104092727B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201410260324.9A CN104092727B (en) 2014-06-12 2014-06-12 A kind of seismic instrument remote support system and method based on 3G Virtual Private Network

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201410260324.9A CN104092727B (en) 2014-06-12 2014-06-12 A kind of seismic instrument remote support system and method based on 3G Virtual Private Network

Publications (2)

Publication Number Publication Date
CN104092727A CN104092727A (en) 2014-10-08
CN104092727B true CN104092727B (en) 2018-10-19

Family

ID=51640407

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201410260324.9A Active CN104092727B (en) 2014-06-12 2014-06-12 A kind of seismic instrument remote support system and method based on 3G Virtual Private Network

Country Status (1)

Country Link
CN (1) CN104092727B (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104836806B (en) * 2015-05-11 2018-11-20 广东电网有限责任公司电力科学研究院 Remote support system, remote access system, remote assisting system and remote assistance method
CN105629305A (en) * 2015-12-31 2016-06-01 中国石油天然气集团公司 Method and device for monitoring earthquake acquisition data quality
CN106371355B (en) * 2016-08-30 2018-11-20 苏州嘉展科技有限公司 A kind of intelligent terminal and method acquiring and control numerical control device by beehive net

Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0970393A1 (en) * 1997-03-25 2000-01-12 Schlumberger Holdings Limited Seismic surveying
CN101300185A (en) * 2005-10-31 2008-11-05 东芝电梯株式会社 Remote monitoring system
CN101639539A (en) * 2009-09-09 2010-02-03 中国科学院地质与地球物理研究所 Storage type earthquake signal continuous collecting system
CN201986020U (en) * 2011-03-22 2011-09-21 陈建毅 Seismometer remote lightning protection control and environment parameter monitor device
CN102213768A (en) * 2010-04-09 2011-10-12 中国科学院地质与地球物理研究所 Novel digital seismic detector based on computer network
CN102917251A (en) * 2012-09-18 2013-02-06 成都驰通数码系统有限公司 3G and GIS technology based terrestrial digital television network monitoring system
CN202856772U (en) * 2012-10-19 2013-04-03 许金聪 Remote monitoring system for decorating machine
CN103064109A (en) * 2008-11-04 2013-04-24 费尔菲尔德工业公司 Method and apparatus for correcting timing function in nodal seismic data acquisition unit
CN202979178U (en) * 2012-09-18 2013-06-05 成都驰通数码系统有限公司 Terrestrial digital television network supervising system based on 3G and GIS technologies
CN103399359A (en) * 2013-08-21 2013-11-20 国家海洋局第二海洋研究所 Benthonic geophysical observation device
WO2013180496A2 (en) * 2012-05-30 2013-12-05 주식회사 싸이트로닉 System and method for providing information on fuel savings, safe operation, and maintenance by real-time predictive monitoring and predictive controlling of aerodynamic and hydrodynamic environmental internal/external forces, hull stresses, motion with six degrees of freedom, and the location of marine structure
CN103558818A (en) * 2013-10-28 2014-02-05 国家电网公司 Cable 10kV high voltage ring main unit remote monitoring and control system

Patent Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0970393A1 (en) * 1997-03-25 2000-01-12 Schlumberger Holdings Limited Seismic surveying
CN101300185A (en) * 2005-10-31 2008-11-05 东芝电梯株式会社 Remote monitoring system
CN103064109A (en) * 2008-11-04 2013-04-24 费尔菲尔德工业公司 Method and apparatus for correcting timing function in nodal seismic data acquisition unit
CN101639539A (en) * 2009-09-09 2010-02-03 中国科学院地质与地球物理研究所 Storage type earthquake signal continuous collecting system
CN102213768A (en) * 2010-04-09 2011-10-12 中国科学院地质与地球物理研究所 Novel digital seismic detector based on computer network
CN201986020U (en) * 2011-03-22 2011-09-21 陈建毅 Seismometer remote lightning protection control and environment parameter monitor device
WO2013180496A2 (en) * 2012-05-30 2013-12-05 주식회사 싸이트로닉 System and method for providing information on fuel savings, safe operation, and maintenance by real-time predictive monitoring and predictive controlling of aerodynamic and hydrodynamic environmental internal/external forces, hull stresses, motion with six degrees of freedom, and the location of marine structure
CN102917251A (en) * 2012-09-18 2013-02-06 成都驰通数码系统有限公司 3G and GIS technology based terrestrial digital television network monitoring system
CN202979178U (en) * 2012-09-18 2013-06-05 成都驰通数码系统有限公司 Terrestrial digital television network supervising system based on 3G and GIS technologies
CN202856772U (en) * 2012-10-19 2013-04-03 许金聪 Remote monitoring system for decorating machine
CN103399359A (en) * 2013-08-21 2013-11-20 国家海洋局第二海洋研究所 Benthonic geophysical observation device
CN103558818A (en) * 2013-10-28 2014-02-05 国家电网公司 Cable 10kV high voltage ring main unit remote monitoring and control system

Also Published As

Publication number Publication date
CN104092727A (en) 2014-10-08

Similar Documents

Publication Publication Date Title
CN103713214B (en) A kind of intelligent substation relay protection closed loop test system
CN103033703B (en) A kind of online, intelligent substation analysis test method of off-line integral type
CN105035904A (en) Intelligent monitoring system for elevator safe operation based on IOT (Internet of Things) technology
CN101621430B (en) Portable electric power communication protocol detector and detection method thereof
CN201062461Y (en) Wireless station screening door vehicle-ground interlocking control system
CN102520715B (en) Universal satellite ground overall control test system
CN104243021B (en) A kind of electric power communication optical cable patrolling and checking management system
CN103856361B (en) Realize the method and system of remote debugging
CN103326469B (en) Method and device for monitoring GOOSE communication status of intelligent substation
CN203070033U (en) PLC remote monitoring system based on Web
CN205665347U (en) 10kV distribution lines broken string fault detection and positioning system based on three phase voltage electric current
CN201721467U (en) Novel portable comprehensive test instrument for dispatching train
CN104578414A (en) Method for realizing visualization of protective operation of intelligent station based on SVG
CN104636986B (en) A kind of method that scheduling telesecurity remote control based on service is checked
CN105035900A (en) Elevator Internet-of-Things monitoring system based on power line transmission
CN102164058A (en) IEC61850 standard transformer substation based communication network and system test method
CN105978159B (en) A kind of substation's remote control test is online to exempt to execute checking method
CN102946260B (en) Automatic meter reading system and communication link quality detecting method thereof
CN105100252A (en) Network topology structure of distributed power monitoring system
CN106341294B (en) Portable MVB protocol analysis equipment and MVB data processing method
CN203136178U (en) Wireless ad hoc network test platform
CN104201774A (en) Method for integrating status monitoring system of primary and secondary power equipment
CN103516427A (en) Online monitoring method and system for communication optical fiber cable based on GIS
WO2013082895A1 (en) Iot elevator monitoring system
CN104601415B (en) Intelligent substation steady state data closed loop test method and test system thereof

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
COR Change of bibliographic data

Free format text: CORRECT: INVENTOR; FROM: LU WEIGANG GAN ZHIQIANG XIA YING TO: XIA YING YANG MAOJUN GAN ZHIQIANG LIU WEIPING ZHANG LIUZHENG SUN LEYI WANG YAN ZHAO NAN ZHU PING WANG LIANG

C53 Correction of patent for invention or patent application
CB03 Change of inventor or designer information

Inventor after: Xia Ying

Inventor after: Wang Liang

Inventor after: Yang Maojun

Inventor after: Gan Zhiqiang

Inventor after: Liu Weiping

Inventor after: Zhang Liuzheng

Inventor after: Sun Leyi

Inventor after: Wang Yan

Inventor after: Zhao Nan

Inventor after: Zhu Ping

Inventor before: Lu Weigang

Inventor before: Gan Zhiqiang

Inventor before: Xia Ying

GR01 Patent grant
GR01 Patent grant