CN104321654B - For arranging the device and system of operation of the mobile device in power transmission system - Google Patents

Abstract

Described embodiment includes a kind of system, device, method and computer program product.A kind of described device includes an acceptor circuit, and the acceptor circuit is configured for reception instruction one and is configured for electric power from a local transport to the data of at least one physical parameter of the power transmission system of another place.The device includes an analysis circuit, and the analysis circuit is configured for being based at least partially on a potential operational risk of the received data assessment to a part for the power transmission system.The device includes a planning circuit, and the planning circuit is configured for being based at least partially on the once traversal on a strip transmission line road of the power transmission system that assessed potential operational risk arrangement is carried out by a mobile device.

Description

For arranging the device and system of operation of the mobile device in power transmission system

The cross reference of related application

The application relates to claim the rights and interests (" related application ") that can use effective submission date earliest of application set forth below (such as, it is desirable to for the priority date available earliest except temporary patent application, or according to United States Code No. 35 the 119 (e) money requirements are for temporary patent application, any and all previous generation applications for the related application, upper two Dai Shen Please, the rights and interests of the application such as upper three generations's application).

Related application：

For the purpose of the requirement outside USPTO regulations, the application constitutes U.S. Patent Application No. 13/436,299, topic To be configured for performing mobile device (the MOBILE DEVICE CONFIGURED of the related task of power transmission system TO PERFORM TASKS RELATED TO A POWER TRANSMISSION SYSTEM), Rhoderick A Hai De (Roderick A.Hyde) and small Percival Lowell L Woods (Lowell L.Wood, Jr.) are inventor, are filed in 2012 The part continuation application on March 30, the current CO-PENDING of this application, or current copending application are entitled to submitting day The application of the rights and interests of phase.

For the purpose of the requirement outside USPTO regulations, the application constitutes U.S. Patent Application No. 13/436,462, topic To be configured for cooperative measuring the device of the property of power transmission system (DEVICES CONFIGURED TO COOPERATIVELY MEASURE PROPERTIES OF A POWER TRANSMISSION SYSTEM), Rhoderick A Hai De (Roderick A.Hyde) and small Percival Lowell L Woods (Lowell L.Wood, Jr.) are inventor, are submitted In the part continuation application on March 30th, 2012, the current CO-PENDING of this application, or current copending application have the right to enjoy There is the application of the rights and interests of submission date.

For the purpose of the requirement outside USPTO regulations, the application constitutes U.S. Patent Application No. 13/436,520, topic To be configured for advancing on conveying circuit and providing mobile device (the MOBILE DEVICE CONFIGURED of assistance TO TRAVEL ON A TRANSMISSION LINE AND PROVIDE ASSISTANCE), Rhoderick A Hai De (Roderick A.Hyde) and small Percival Lowell L Woods (Lowell L.Wood, Jr.) are inventor, are filed in 2012 The part continuation application on March 30, the current CO-PENDING of this application, or current copending application are entitled to submitting day The application of the rights and interests of phase.

USPO (USPTO) has disclosed a statement, claims USPTO computer program requirement patent applicant Sequence number is not only referred to, and to point out whether application is continuation application or part continuation application.Stefan G. storehouses are peaceful (Stephen G.Kunin), the rights and interests for the application formerly submitted, USPTO Official Journals, on March 18th, 2003.The applicant is real Body (hereinafter referred to as " applicant ") have already been provided above to apply (being claimed priority from it) specific reference, such as with regulation it is old State.Applicants understand that regulation is clear and definite in terms of its specific specific quote language, and for requiring the preferential of U.S. Patent application Power is not required for sequence number or any sign, such as " continuation application " or " part continuation application ".It is that as it may, applicant still manages Solution, USPTO computer program have some data inputtings in terms of requirement, and therefore the application is appointed as it by the applicant The part continuation application of previous generation applications, such as it is listed above, but the applicant it is manifestly intended that：It is this specify be not able to it is any Mode is construed to whether further comprises any class of any new content outside the content of its previous generation application for the application The explanation of type recognizes.

Any and all previous generation applications of these related applications and these related applications, the application of upper two generation, upper three All themes of generation application etc. are all incorporated herein by reference, and its degree is so that such theme is consistent with this paper.

General introduction

Such as but be not limited, the embodiment of theme described herein includes a kind of device.In the present embodiment, should Device includes an acceptor circuit, and the acceptor circuit is configured for reception instruction one and is configured for electric power From a local transport to the data of at least one physical parameter of the power transmission system of another place.The device includes one Individual analysis circuit, the analysis circuit are configured for being based at least partially on received data assessment to the power Transmission system One potential operational risk of a part for system.The device includes a planning circuit, the planning circuit be configured for Be at least partly based on assessed potential operational risk arrangement by a mobile device carry out the one of the power transmission system Once traversal on strip transmission line road.In embodiment, the device includes a mobile device selector circuit, the mobile device Selector circuit is configured for selecting one among one first available mobile device and one second available mobile device The individual traversal that the conveying circuit arranged can be performed with mobile device.In embodiment, the device includes a control of advancing Device circuit processed, the traveling controller circuitry are configured for the traversal arranged that control is carried out by the mobile device.In reality Apply in example, the device includes a computer-readable medium, and the computer-readable medium is configured for storage by the movement The traversal arranged of the part of the power transmission system that equipment is carried out.

Such as but be not limited, the embodiment of theme described herein includes a kind of system.In the present embodiment, should System includes a conveying circuit management tool, and the conveying circuit management tool is configured for assessing and a power Transmission A kind of potential inspection and/or maintenance needs of an associated structure of system and respond accordingly in the potential inspection and/ Or the once traversal on a strip transmission line road of the power transmission system that maintenance needs arrangement is carried out by a mobile device.This is System includes the mobile device, and the mobile device is configured for traveling through the conveying circuit, and in response to the potential inspection with/ Or maintenance needs perform an action.The power transmission system, by electric power from a local transport to another place, and should Conveying circuit provides the access to the structure.

Such as but be not limited, the embodiment of theme described herein includes a kind of method.In the present embodiment, should Method includes reception instruction one and is configured for power Transmission system of the electric power from a local transport to another place The data of at least one physical parameter of system.This method is defeated to the electric power including being based at least partially on received data assessment Send a potential operational risk of a part for system.This method is included in response to the potential operational risk arrangement assessed by one The once traversal at least a portion on a strip transmission line road that individual mobile device is carried out.The conveying circuit is provided to the electric power The access of the part of induction system.The mobile device is configured for traveling through the conveying circuit of power transmission system And for performing an action of the potential operational risk in response to being assessed.In embodiment, this method include from One first of a kind of the first ability for responding assessed potential operational risk can use mobile device and with a kind of response institute One second of the second ability of the potential operational risk of assessment can among mobile device select a specific mobile device come Perform arranged traversal.In embodiment, this method includes the traversal arranged that control is carried out by the mobile device.In reality Apply in example, this method is included in the traversal arranged that storage instruction is carried out by the mobile device in a computer-readable medium Data.In embodiment, this method includes the information data for the traversal arranged that output indication is carried out by the mobile device. In embodiment, it is concrete visual depiction that this method, which is included the ergodic transformation arranged carried out by the mobile device, and Export the concrete visual depiction.In embodiment, this method includes being based at least partially on being pacified by what the mobile device was carried out One notice of at least one offer of the traversal of row into the mankind, computer or system.

Such as but be not limited, the embodiment of theme described herein includes a kind of computer program product.At this In embodiment, the computer program product includes the computer-readable medium of carrying programmed instruction.The computer program product bag Programmed instruction is included, when by the computing device of computing device, these programmed instruction cause one process of the computing device. The process includes reception instruction one and is configured for power Transmission of the electric power from a local transport to another place The data of at least one physical parameter of system.The process includes being based at least partially on received data assessment to the electric power One potential operational risk of a part for induction system.The process is included based on the potential operational risk arrangement assessed by one The once traversal on a strip transmission line road that individual mobile device is carried out, the conveying circuit provide being somebody's turn to do to the power transmission system Partial access.The mobile device is configured for traversal conveying circuit and in response to being commented to the power transmission system The potential operational risk estimated performs an action.In embodiment, the process includes what output indication was carried out by the mobile device The data of the traversal of the conveying circuit arranged.In embodiment, the process, which includes being based at least partially on, to be indicated to be arranged Traversal at least one offer one notice of the data into the mankind, computer or system.In embodiment, the process bag Include and the data for indicating arranged traversal are transformed to concrete visual depiction, and export the concrete visual depiction.

Brief Description Of Drawings

Fig. 1 illustrates a kind of example embodiment for the thin computing device that can realize embodiment wherein；

Fig. 2 illustrates a kind of example embodiment for the general-purpose computing system that can realize embodiment wherein；

Fig. 3 illustrates the example context 200 that can realize embodiment wherein；

Fig. 4 illustrates the example context 300 that can realize embodiment wherein；

Fig. 5 illustrates the example context 400 that can realize embodiment wherein；

Fig. 6 illustrates the example operational flow 500 that can realize embodiment wherein；

Fig. 7 illustrates the alternate embodiment of Fig. 6 reception operation 510；

Fig. 8 illustrates the alternate embodiment of Fig. 6 operating process 500；

Fig. 9 illustrates the computer program product 600 that can realize embodiment wherein；

Figure 10 illustrates the example context 700 that can realize embodiment wherein；

Figure 11 illustrates the example context 800 that can realize embodiment wherein；

Figure 12 illustrates the example context 900 that can realize embodiment wherein；

Figure 13 illustrates the environment 1000 that can realize embodiment wherein；

Figure 14 illustrates the example embodiment of Figure 13 mobile device 1005；

Figure 15 illustrates the example context 1200 that can realize embodiment wherein；

Figure 16 illustrates the example context 1300 that can realize embodiment wherein；And；

Figure 17 illustrates the example context 1400 that can realize embodiment wherein；

Describe in detail

In the following detailed description, it with reference to be formed the accompanying drawing of a part for the description.In the accompanying drawings, similar symbol leads to Similar component is often identified, unless context otherwise indicates.The institute in detailed description, accompanying drawing and claims The embodiment shown of description is not intended to be limiting.In the situation for the spirit or scope for not departing from the theme presented herein Under, other embodiment can be used, and other changes can be carried out.

One of ordinary skill in the art it will be recognized that prior art have developed to the various aspects of system hardware, Software and/or firmware there's almost no the degree of difference between realizing；The use of hardware, software and/or firmware in general (but Such was the case with, because in some cases, the selection between hardware and software can become important) it is to represent cost vs. The design alternative of efficiency trade.It will be recognized that various carriers be present (for example, hardware, software in one of ordinary skill in the art And/or firmware), process and/or system and/or other technologies described herein can be influenceed by these carriers, and excellent The carrier of choosing will change with the environment for wherein deploying these processes and/or system and/or other technologies.If for example, hold Passerby determines that speed and the degree of accuracy are most important, then the executor can select main hardware and/or firmware vehicle；Can Alternatively, if flexibility is most important, then the executor can select main software realization mode；Or it can replace again Dai Di, the executor can select certain combination of hardware, software and/or firmware.Accordingly, there exist some possible carriers, Process and/or equipment and/or other technologies described by this can be carried out by these carriers, either of which Be not better than another in itself because it is any have carrier to be utilized all be depend on carrier by the environment disposed with And executor focuses particularly on point (for example, speed, flexibility or predictability) (any of which can change) Selection.One of ordinary skill in the art it will be recognized that each optics aspect of implementation by generally use optical orientation Hardware, software and/or firmware.

In some implementations described herein, logic and similar implementation can include being adapted for carrying out operating Software or other control structures.For example, electronic circuit can show be constructed and arranged to realize it is described herein each One or more current paths of kind logic function.In some implementations, as the described herein, one or more media If be configured for when such medium keeps or transmitted operable special equipment instruction with execution, load bearing equipment can The implementation of detection.For example, in some variants, this can be such as by performing on one described herein or more The receptions or transmission of one or more instructions of individual operation and being shown as existing software or firmware or gate array or other can compile The renewal of journey hardware or other modifications.Alternatively or additionally, in some variants, implementation can include perform or with Other modes call specialized hardware, software, fastener components, and/or the general purpose module of personal module.Specification or other realization sides Formula can be transmitted by one or more examples of tangible transmission media described here, optionally by packet transmission or Otherwise by being transmitted through distributed medium in each time to transmit.

Alternatively or additionally, implementation can include performing special instruction sequence or otherwise call circuit For enabling, triggering, coordinating, asking or otherwise causing any feature operation described below once Or repeatedly occur.In some variants, it is in this operation or other logical descriptions can be directly expressed as source code and It is compiled or otherwise calls as executable instruction sequence.In some contexts, for example, C++ or other codes can By direct compilation or otherwise to realize in senior descriptor language (for example, logic can synthetic language, Hardware description language Speech, hardware design simulation, and/or other such expression patterns) in.Alternatively or additionally, especially for basic Some or all of logical expression, is shown as within hardware by operation or the application of basic operation before physics realization that can be Verilog type of hardware describes or other circuit models.According to these teachings, one of ordinary skill in the art will be recognized that such as What obtains, configures and optimized suitable transmission or computing element, material supply, actuator or other common structures.

In general meaning, it would be recognized by those skilled in the art that each embodiment described herein can pass through Various types of Mechatronic Systems individually and/or jointly realize that these Mechatronic Systems have broad range of electric component such as Hardware, software, firmware and/or its substantially any combination；And the broad range of component of mechanical force or motion can be applied, such as Rigid body, spring or reverse body, waterpower, electromagnetically actuated equipment and/or its substantially any combination.Therefore, as made at this " Mechatronic Systems " includes but is not limited to：Transducer is operably coupled to (for example, actuator, motor, piezo-electric crystal, micro- Mechatronic Systems (MEMS) etc.) circuit, the circuit with least one discrete circuit, the electricity with least one integrated circuit Road, the circuit with least one application-specific IC, the electricity for forming the universal computing device configured by computer program (for example, the all-purpose computer configured by computer program, it performs process described herein and/or set at least in part on road Microprocessor that is standby, or being configured by computer program, it performs process and/or equipment described herein at least in part), Form the circuit (for example, form of memory (for example, arbitrary access, quick flashing, read-only etc.)) of memory devices, form communication equipment Circuit (for example, modem, module, communication switchboard, optoelectronic device etc.), and/or any nonelectronic analog, example Such as optics or other analogs.It will also be appreciated by the skilled artisan that the example of Mechatronic Systems includes but is not limited to a variety of disappear The person's of expense electronic system, Medical Devices and other systems for example motorization transportation system, factory automation system, security system, And/or communication/computing system.It would be recognized by those skilled in the art that electromechanics is not necessarily limited to have simultaneously as used in this The system electrically and mechanically activated, unless context may be indicated otherwise.

In general meaning, it will also be appreciated by the skilled artisan that described herein can pass through broad range Hardware, software, firmware, and/or its any combinations be considered as come each side individually and/or jointly realized by various " circuit " composition of type.Therefore, " circuit " includes but is not limited to as used in this：Electricity with least one discrete circuit Road, the circuit with least one integrated circuit, the circuit with least one application-specific IC, formation are by computer The circuit of the universal computing device of program configuration (for example, by performing process and/or equipment described herein at least in part The all-purpose computer of computer program configuration, or by performing the meter of process and/or equipment described herein at least in part The microprocessor of calculation machine program configuration), form the circuit of memory devices (for example, form of memory (for example, arbitrary access, fast Dodge, be read-only etc.)), and/or form the circuit (for example, modem, communication switchboard, optoelectronic device etc.) of communication equipment.This Art personnel are it will be recognized that theme described herein can be realized with analog or digital form or its certain combination.

Those skilled in the art will be further appreciated that equipment described herein and/or during at least a portion It can be integrated into image processing system.Typical image processing system generally includes one or more in the following：System Unite unit housings, video display apparatus, memory (such as volatibility or nonvolatile memory), processor (such as microprocessor or Digital signal processor), computational entity (such as operating system, driver, application program), one or more interactive devices (for example, Touch pad, touch-screen, antenna etc.), control system (including feedback control loop) and controlled motor be (for example, for sensing lens position And/or the feedback of speed；For moving distorting lens to provide the controlled motor of desired focus).It is suitable to use Commercially available component realizes image processing system, as generally found in Digital Still system and/or digital motion systems Those.

Those skilled in the art by it is also realised that equipment described herein and/or during it is at least some of can be with It is integrated into data handling system.Those skilled in the art will recognize that data handling system is generally included in the following It is one or more：System unit shell, video display apparatus, memory (such as volatibility or nonvolatile memory), processing Device (such as microprocessor or digital signal processor), computational entity (such as operating system, driver, graphical user interface, Yi Jiying With program), one or more interactive devices (for example, touch pad, touch-screen, antenna etc.), and/or control system (including feedback Loop) and controlled motor (for example, for sensing the feedback of position and/or the feedback of speed；For moving and/or adjusting component and/or number The controlled motor of amount).Data handling system can be realized using suitable commercially available component, such as generally calculate in data/ Communication and/or network calculations communication system found in those.

Fig. 1 and Fig. 2 provides the corresponding overall description for some environment that can realize implementation wherein.Fig. 1 is overall It is upper to be directed to the thin computing environment 19 with thin computing device 20, and Fig. 2 is generally directed to logical with universal computing device 110 With computing environment 100.However, with computer module prices and with capacity and speed increase, be not constantly present Bright line between thin computing device and universal computing device.Further, exist always benefited by the use of computing capability For the new idea of environment and application.As a result, unless being limited by representation language, being not necessarily to be construed as will be disclosed herein Theme is restricted to specific calculation environment.

Fig. 1 and discussion below aim to provide the brief totality for the thin computing environment 19 that can realize embodiment wherein Description.Fig. 1 illustrates the example system for including thin computing device 20, the thin computing device can be included or is embedded in also to include In the electronic equipment of functions of the equipments element 50.For example, the electronic equipment can include any project, these projects have in project Feature in the electrically or electronically assembly that works, such as, refrigerator, automobile, digital image acquisition apparatus, camera, Cable modem, printer, ultrasonic device, x light machine, non-invasive imaging equipment or aircraft.For example, electronic equipment Any project can be included, the function element of these projects and project is entered line interface connection or controlled it.At another In example, thin computing device can be included in implantable medical treatment device or equipment.It is thin in a further example Computing device can operate for medical treatment device that is implantable or being implanted into.For example, thin computing device can include Computing device with limited resources or limited processing capacity, such as limited resource computing device, Wireless Telecom Equipment, mobile wireless Communication equipment, smart phone, electronic pen, hand-held electronic apparatus for writing, scanner, cell phone, smart phone are (as based on peace Tall and erect (Android)OrEquipment), tablet device (such as) or blackberry, blueberry (Blackberry)Equipment.Example Such as, thin computing device can include thin client device or mobile thin client device, such as smart phone, tablet PC, pen Remember this computer or be configured for the desktop hardware run in virtualized environment.

Thin computing device 20 includes processor unit 21, system storage 22 and (including system is deposited by various system components Reservoir 22) it is coupled to the system bus 23 of processing unit 21.System bus 23 can include memory bus or memory control If in the bus structures of the dry type of the local bus of device processed, peripheral bus and any framework in the various bus architectures of use Any types.System storage may include read-only storage (ROM) 24 and random access memory (RAM) 25.Comprising such as opening The basic input/output of the basic routine of transmission information between sub-component of the dynamic period help in thin computing device 20 (BIOS) 26 it is stored in ROM 24.Multiple program modules can be stored in ROM 24 or RAM 25, including operating system 28th, one or more application programs 29, other program modules 30 and routine data 31.

User be able to will be ordered by one or more input interfaces and information is inputted into computing device 20.Input interface Touch-sensitive display or one or more switches or button with suitable input detecting circuit can be included.Touch-sensitive display It is shown as display 32 and screen input detector 33.One or more switch or button are shown as connecing by hardware button Mouth 45 is connected to the hardware button 44 of system.It is total that the output circuit of touch-sensitive display 32 by video driver 37 is connected to system Line 23.Other input equipments can include the microphone 34 connected by suitable COBBAIF 35 or physical hardware keyboard (not Show).Output equipment can include display 32 or projector display 36.

In addition to display 32, computing device 20 can include other peripheral output devices, such as at least one loudspeaker 38. Other outside inputs or output equipment 39 (such as control stick, cribbage-board, dish-shaped satellite, scanner) can be passed through USB port 40 and USB port interface 41 be connected to processing unit 21, to system bus 23.Alternatively, other outside inputs and output equipment 39 can be connected by other interfaces (such as parallel port, game port or other ports).Computing device 20 may further include Or flash cards memory (not shown) can be connected to by appropriate connectivity port (not shown).Computing device 20 can enter one Step includes or can be by the network port 42 and network interface 43 and network connection, and can provide by the He of radio port 46 Respective wireless interface 47 promotes the communication with other ancillary equipment (including the (not shown) such as other computers, printer).Will Recognize that shown each component and connection are example and can use the other assemblies and device for establishing communication link.

Computing device 20 can be designed primarily to include user interface.User interface can include character, based on button Or another user data input for passing through touch-sensitive display 32.User interface can be including the use of stylus (not shown). Moreover, user's input is not limited to be arranged to the actual touch sensitive panel for directly receiving input, but can alternately or separately Outer another input equipment (such as microphone 34) of response.For example, receiving spoken words and it can be carried out at microphone 34 Identification.Alternately, computing device 20 can be designed as including the user interface with physical keyboard (not shown).

Functions of the equipments element 50 is usually that application is specific and related to the function of electronic equipment, and passes through interface (not shown) couples with system bus 23.Function element, which can be performed generally, single has little or no user configuration or setting Well-defined task, as refrigerator keep food cooling, cell phone is connected with appropriate tower and receiving and transmitting voice or data Information, captured by camera and preserve image or with implantable medical treatment device.

In some instances, one or more elements of thin computing device 20 can be considered as unnecessary and omission. In other instances, one or more other elements can be considered as necessary and be added in thin computing device.

Fig. 2 and discussion below aim to provide the brief overall description for the environment that can realize embodiment wherein. Fig. 2 illustrates the example embodiment for the general-purpose computing system that can realize embodiment wherein, is illustrated as computing system environment 100.The component of computing system environment 100 can include but is not limited to：Universal computing device 110, system with processor 120 Memory 130 and the system bus 121 that each system component including system storage is coupled on processor 120.System is total Line 121 can include memory bus or Memory Controller, peripheral bus and using any frame in various bus architectures If any types in the bus structures of the dry type of the local bus of structure.For example, but unrestrictedly, such framework includes work Industry standard architecture (ISA) bus, Micro Channel Architecture (MCA) bus, enhancing ISA (EISA) bus, VESA (VESA) local bus and periphery component interconnection (PCI) bus (also known as Mei Zhani (Mezzanine) bus).

Computing system environment 100 generally includes a variety of computer readable medium products.Computer-readable medium can include Any medium that can be accessed by computing device 110 and including volatibility and non-volatile media, removable and nonremovable Both media.For example, but unrestrictedly, computer-readable medium can include computer-readable storage medium.Further citing comes Say, but unrestrictedly, computer-readable medium can include communication media.

Computer-readable storage medium be included in realized in any method or technique be used for storage information (such as computer-readable finger Make, data structure, program module or other data) volatibility and non-volatile, removable and nonremovable medium.Calculate Machine storage medium includes but is not limited to：Random access memory (RAM), read-only storage (ROM), electrically erasable are read-only Memory (EEPROM), flash memory or other memory technologies, CD-ROM, digital versatile disc (DVD) or other light Disk storage, magnetic holder, tape, disk storage or other magnetic storage apparatus or other any can be used for storing desired letter The medium that ceases and can be accessed by computing device 110.In a further embodiment, computer-readable storage medium can include one group Computer-readable storage medium equipment.In another embodiment, computer-readable storage medium can include information repository.At another In embodiment, information repository can include quantum memory, photonic quantum memory or atomic weight quantum memory.In above-mentioned Any combination held can also be included in the range of computer-readable medium.

Communication media can generally implement computer-readable instruction, data structure, program module or in brewed data Other data in signal (such as carrier wave or other transport mechanisms) and including any information delivery media.Term " brewed number It is believed that number " meaning by the information in encoded signal it is this in a manner of be set or changed the one or more in its characteristic letter Number.For example, but unrestrictedly, communication media includes wire medium (such as cable network and direct wired connection) and wireless Jie Matter (such as acoustics, RF, optical and infrared medium).

System storage 130 includes the computer-readable storage medium of volatibility and nonvolatile memory form, such as ROM 131 With RAM 132.RAM can include at least one of DRAM, EDO DRAM, SDRAM, RDRAM, VRAM or DDR DRAM.Bag Basic input/output containing the basic routine of transmission information between the element helped as during start-up in computing device 110 System (BIOS) 133 is generally stored inside in ROM 131.RAM 132 generally comprise processor 120 it is addressable immediately or it is current just The data and program module being operated by it.For example, but unrestrictedly, Fig. 2 illustrate operating system 134, application program 135, Other program modules 136 and routine data 137.Generally, operating system 134 passes through one or more API (API) (not shown) provides service to application program 135.Because operating system 134 combines these services, the developer of application program 135 Exploitation code is not needed again to use these to service.By operating system (such as Microsoft (Microsoft)) the API example that provides is well known in the art.

Computing device 110 can also include other removable/non-removable, volatile/non-volatile computer storages and be situated between Matter product.For example, Fig. 2 illustrates non-removable non-volatile memory interface (hard-disk interface) 140, and it is to for example can not Remove, non-volatile magnetic media is read and writen.Fig. 2 also illustrates removable non-volatile memory interface 150, its Such as coupled in the disk drive 151 being read and writen to removable, non-volatile magnetic disk 152 or coupled to pair can Remove, in the disc drives 155 (for example, CD ROM) that anonvolatile optical disk 156 is read and writen.Other can be in example Removable/non-removable, the volatile/nonvolatile computer storage media used in operating environment includes but is not limited to：Magnetic Tape drum, storage card, flash memory cards, DVD, digital video cassette, solid-state RAM and solid-state ROM.Hard drive 141 generally passes through Non-removable memory interface (such as interface 140) is connected on system bus 121, and disk drive 151 and disc drives 155 Generally it is connected to by non-removable non-volatile memory interface (such as interface 150) on system bus 121.

Discussed above and the driving shown in fig. 2 and its associated computer-readable storage medium are provided based on Calculate the storage of the computer-readable instruction of equipment 110, data structure, program module and other data.In fig. 2, for example, firmly Dish driving 141 is shown as storage program area 144, application program 145, other program modules 146 and routine data 147.Note Anticipating can be with operating system 134, application program 135, other program modules 136 and routine data 137 either to these components Identical is either different.Operating system 144, application program 145, other program modules 146 and program number are given herein According to 147 different numberings come to be illustrated on bottom line them be different copies.

User can by input equipment (such as microphone 163, keyboard 162 and pointing device 161 (usual finger mouse, Trace ball or touch pad)) order and information are inputted into computing device 110.Other input equipment (not shown) can include One or more in touch-sensitive display, control stick, cribbage-board, dish-shaped satellite and scanner.These and other input equipments lead to It is connected to usually through coupled to the user input interface 160 on system bus on processor 120, but can be by other interfaces and total Cable architecture (such as parallel port, game port or USB (USB)) connects.

Display 191 (such as monitor or other kinds of display device or surface) can pass through interface (such as video interface 190) it is connected on system bus 121.Projector display engine 192 including projection element is coupled to system bus On.In addition to display, other peripheries that computing device 110 can also include connecting by peripheral interface 195 are defeated Go out equipment (such as loudspeaker 197 and printer 196).

Computing system environment 100 may operate in use to one or more remote computers (such as remote computer 180) Logic connection networked environment in.Remote computer 180 can be personal computer, server, router, network PC, right Etc. equipment or other common network nodes, and generally include to be permitted above in regard in the element described by computing device 110 It is more or whole, although show only memory storage device 181 in fig. 2.Cellular logic connection depicted in figure 2 includes LAN (LAN) and wide area network (WAN), and other networks such as Personal Area Network (PAN) (not shown) can also be included.Such networking Environment is quotidian in office, the computer network of enterprise-wide, intranet and internet.

When in networked environment in use, computing system environment 100 passes through network interface (such as network interface 170, modulatedemodulate Adjust device 172 or wave point 193) it is connected to network 171.Network can include lan network environment or WAN network environment (such as Internet).In networked environment, the program module described relative to computing device 110 or its some can be stored in In remote memory storage device.For example, but unrestrictedly, Fig. 2 illustrate reside in it is remote in memory storage device 181 Journey application program 185.It will be recognized that shown network connection is example and can use foundation communication between the computers Other devices of link.

In some instances, one or more elements of computing device 110 can be considered as unnecessary and omission. In other examples, one or more other elements can be considered as necessary and be added on computing device.

Fig. 3 illustrates the example context 200 that can realize embodiment wherein.The environment includes being configured for electricity High-tension electricity induction system of the power from a local transport to another place.Fig. 3 is illustrated as aerial high-voltage power Transmission The example of the high-tension electricity induction system of system 205.In another example, high-tension electricity induction system can be underground high-voltage Power transmission system.

In embodiment, high-tension electricity induction system can include being designed and insulating into for more than approximation 35,000 Volt is by power transmission system of the electric power from a local transport to another place.For example, the voltage of high-tension electricity conveying can With including 138kV, 230kV, 345kV, 500kV or 765kV.In embodiment, electric power distribution system can include following system System, the system are designed and insulated into for being transported electric power from high-tension electricity induction system and being assigned to sub-conveying consumer. For example, the voltage of electric power distribution system can include 26kV or 69kV, with 13kV or 4kV to primary consumer, or with 120V or 240V is to secondary consumer.

The structure associated with example system 205 includes the defeated of the conveying circuit 230 that support is suspended in midair from insulator 220 Send tower 210.Example conveying tower is shown as tower 210A and 210B by Fig. 3.Example insulator 220 is illustrated mounted on tower 210A Insulator 220A.1,220A.2 and 220A.3 and insulator 220B.1,220B.2 and 220B.3 on tower 210B. Insulator is made by such as wet method porcelain, safety glass, strengthens glass polymer composites or other non-ceramic materials.By example Conveying circuit 230 is shown as conveying circuit 230.1,230.2 and 230.3.High-tension electricity induction system is subjected to operational risk, all As for example, weather conditions, environment temperature, lightning or Rainfall Influence aerial high-voltage power transmission system.Other operational risks can be with Including such as aging, damage or deterioration.Other operational risks can include such as vegetation or the infringement originating from the mankind.It is potential Operational risk is shown as vegetation 240 in figure 3.

Fig. 4 illustrates example context 300.The environment is included by induction system management tool 320 (being hereafter " TSM instrument ") The device of displaying.The environment includes combining the high-tension electricity induction system 205 that Fig. 3 is described and is shown by tower 210.The environment Including mobile device 380, the mobile device is configured for traversal conveying circuit and in response to being conveyed to the high-tension electricity The potential operational risk assessed of system performs action.

TSM instrument 320 includes acceptor circuit 322, analysis circuit 324 and planning circuit 326.The acceptor circuit Including following acceptor circuit, the acceptor circuit is configured for receiving at least one physics of instruction power transmission system The data of parameter, the power transmission system are shown as high-tension electricity induction system 205, are configured for electric power from one Local transport is to another place.The analysis circuit includes following analysis circuit, and the analysis circuit is configured at least portion Divide potential operational risk of the ground based on received data assessment to a part for the power transmission system.For example, power Transmission The part of system can be included in that part of the high-tension electricity induction system between tower 210A and 210B.For example, electric power The part of induction system can be included in that part of the pipeline 230.1 between tower 210A and 210B.For example, electric power is defeated The part of system is sent to be included in that part of the high-tension electricity induction system between tower 210A and another tower.The rule Drawing circuit includes following planning circuit, and the planning circuit is configured for being based at least partially on the potential operation wind assessed Nearly arrange the traversal of the conveying circuit of the power transmission system carried out by mobile device 380.The conveying circuit is provided to the electricity The access of the part of power induction system.

It would be recognized by those skilled in the art that in embodiment, the various aspects of TSM instrument 320 can use hardware, soft Part, and/or firmware implementation are realized.It would be recognized by those skilled in the art that in embodiment, the various aspects of TSM instrument Can by it is various types of have broad range of electric component (such as hardware, software, firmware and/or its substantially any combination) Mechatronic Systems individually and/or is jointly realized.It would be recognized by those skilled in the art that in embodiment, TSM instrument it is each Individual aspect can be come real using the all-purpose computer for the one or more concrete functions for being programmed to execute or carrying out TSM instrument It is existing.It is, for example, possible to use computing device 350 realizes the various aspects of TSM instrument., can be by computing device in embodiment Coupled with coupled to the computer memory device 338 on computer-readable medium.In embodiment, it can use and combine Fig. 1 institutes The general thin computing device 20 of description partially or completely realizes computing device.In embodiment, it can use and combine Fig. 2 Described dedicated computing equipment 100 partially or completely realizes computing device.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

In embodiment, indicating the data of at least one physical parameter of high-tension electricity induction system 205 includes the high pressure At least one of operating voltage, electric current, phase, configuration, age or capacity parameter of the component of power transmission system.For example, Component can include insulator, and parameter can be the type of insulator, manufacturer, fault rate, the age, service year or Finally clean.For example, component can include breaker, switch or the transformer of high-tension electricity induction system.In embodiment, Wherein, indicating the data of at least one physical parameter of high-tension electricity induction system includes the conveying of the high-tension electricity induction system Electric current, phase, configuration, age, cable dimensions, cable material or the metal ingredient of circuit or single or binding conductive state At least one of parameter.In embodiment, indicating the data of at least one physical parameter of high-tension electricity induction system includes At least one of the position of the high-tension electricity induction system or map.For example, the map can include geographical or signal map. For example, the map can include tower position, tower configuration or tower height degree.For example, the map can be included in the gap of particular location Or acceptable line sag.In embodiment, indicating the data of at least one physical parameter of high-tension electricity induction system includes The safety and/or failure of the high-tension electricity induction system allow at least one of margin or peak load.

High-tension electricity induction system 205 includes being configured for electric power from a local transport to another place The aerial high-voltage power transmission system in embodiment.In embodiment, the high-tension electricity induction system includes being configured for By underground high-voltage power transmission system of the electric power from a local transport to another place.In embodiment, the high-tension electricity Induction system includes being configured for specific high-tension electricity delivery system of the electric power from a local transport to another place System.In embodiment, the high-tension electricity induction system is can be resolved at least two high-tension electricity induction system parts to be used for The assessment of potential operational risk.

In embodiment, acceptor circuit 322 is further configured to be used to receive instruction influence high-tension electricity conveying The data of the current condition of system.For example, current condition can include existing weather conditions, i.e. blow, snow or temperature. In embodiment, at least one event include influenceing the weather conditions of the high-tension electricity induction system, environment temperature, lightning or At least one of precipitation.In embodiment, at least one event includes the existing line temperature of the high-tension electricity induction system At least one of degree, current needs or equipment fault.In embodiment, at least one event includes peak loading value, peak Value load characteristic or influence the high-tension electricity induction system another high-tension electricity induction system state at least one Kind.In embodiment, at least one event includes influenceing mechanicalness, date or the vacation shape of the high-tension electricity induction system At least one of state.In embodiment, the potential operational risk includes potential inspection requirements.In embodiment, the potential behaviour Making risk includes potential maintenance requirement.In embodiment, the potential operational risk includes potential maintenance requirement.

In embodiment, analysis circuit 324 includes following analysis circuit, and the analysis circuit is configured for assessing to this The potential operation of a part for high-tension electricity induction system or the structure associated with the part of the high-tension electricity induction system Risk.The assessment is based at least partially on received data.

In embodiment, the conveying circuit is real-time conveying circuit.In embodiment, the conveying circuit is lower electric pipeline Road.

In embodiment, planning circuit 326 includes following analysis circuit, and the analysis circuit is configured for the high pressure The first of the Part I of the part of power transmission system assesses potential operational risk on the high-tension electricity induction system Second assessment potential operational risk of Part II is prioritized.It is potential that the priorization is based at least partially on first assessment Operational risk and the second assessment potential operational risk.The planning circuit is further configured to should in response to the priorization arrangement The traversal of the Part I of the part of high-tension electricity induction system.For example, the priorization can be based on multiple operational risks Sequence.For example, it may be possible to calamitous operational risk will have higher priority than routine calamitous operational risk.In embodiment In, the planning circuit includes following planning circuit, and the planning circuit is configured for the potential operation wind in response to being assessed Danger arranges provided to the conveying of the access of the part of the high-tension electricity induction system by what at least two mobile devices were carried out Traversal on circuit.At least two mobile device is configured for action of working in coordination.

In embodiment, the conveying circuit is relative to the part of the high-tension electricity induction system to allow to the high-tension electricity The mode that the inspection of the part of power induction system accesses positions.In embodiment, the conveying circuit is relative to the high-tension electricity The part of induction system is positioned in a manner of allowing the maintenance to the part of the high-tension electricity induction system to access.Implementing Example in, the conveying circuit relative to the part of the high-tension electricity induction system with allow to the high-tension electricity induction system should The mode of partial maintenance access positions.In embodiment, the conveying circuit relative to the high-tension electricity induction system the portion Divide and positioned in a manner of allowing the replacement to the part of the high-tension electricity induction system to access.

In embodiment, data receiver circuit 322 is further configured to be used to receive to indicate to influence the high-tension electricity Current condition, by operating the offer of another mobile device in the high-tension electricity induction system the data of induction system. In embodiment, the data receiver circuit is further configured to the potential operation assessed for receiving instruction with response The first of the first ability of risk can use mobile device and with the second ability for responding assessed potential operational risk The data of second available mobile device.In embodiment, the TSM instrument includes mobile device selector circuit 332, and the movement is set Alternative device circuit is configured for that from selection among the first available mobile device and the second available mobile device movement can be used Equipment performs the traversal of the conveying circuit arranged.

In embodiment, planning circuit 326 is further configured to the institute carried out for providing instruction by the mobile device The data of the traversal of the conveying circuit arranged.For example, in response to another circuit from TSM instrument 320 or it can come from The request of third party device is pulled to provide the data.For example, can be by another electricity of the data-pushing to the TSM instrument Road or to third party device (such as computing device 392).

In embodiment, the TSM instrument 320 includes traveling controller circuitry 334, and the traveling controller circuitry is configured to For controlling the traversal arranged carried out by the mobile device.In embodiment, the traveling controller circuitry is configured to use In the route and speed of the traversal arranged that control is carried out by mobile device.In embodiment, the traveling controller circuitry quilt It is disposed for controlling it while the mobile device and another mobile device are all just traveling through the high-tension electricity induction system Between spacing.In embodiment, the traveling controller circuitry is configured for determination and needs to be taken by the mobile device Course.The course is determined based on one or more factors, one or more factors include the mobile device Desired by original position, the website reached as the mobile device along the number amount and type and needing of the barrier of route Space time.In embodiment, the traveling controller circuitry is configured in response to indicating being pacified for the conveying circuit The data dispatch of the traversal of the row mobile device.In embodiment, the traveling controller circuitry is configured in response to one Individual or Multiple factors dispatch the mobile device.These factors can include the type of required measurement, since what is previously measured The space time profile of time, the value previously measured, and/or required measurement.In embodiment, traveling controller electricity Road is further configured to another time for another part relative to the high-tension electricity induction system based on mobile device The mobile device of another traversal on the conveying circuit is dispatched to the high-tension electricity induction system by measurement or activity The part is used for the measurement or activity.In embodiment, the traveling controller circuitry is further configured to be used to be used for Another part that another mobile device of another traversal on the conveying circuit is dispatched to the high-tension electricity induction system is used In another one-shot measurement or activity.The scheduling is based at least partially on being somebody's turn to do on the high-tension electricity induction system of the mobile device Partial measurement or activity.In embodiment, the traveling controller circuitry is configured for the mobile device being dispatched to this Position on conveying circuit is used to measure or activity.The scheduling is based at least partially on the consideration of one or more factors, and this one Individual or Multiple factors include line conditions, phase, voltage or current value, load, source, weather and/or environmental aspect.In embodiment In, the traveling controller circuitry is configured for the mobile device being dispatched to the different portions of the high-tension electricity induction system Point.The scheduling is based at least partially on to the inspection at these different pieces and the relative needs and the mobile device of activity With the consideration of the availability of another mobile device.In embodiment, the traveling controller circuitry is configured for moving this Equipment scheduling is moved to the different piece of the high-tension electricity induction system.The scheduling is based at least partially on in these different pieces The inspection at place and the expection of activity or it is expected that the consideration of the availability of needs and the mobile device and the mobile device.

In embodiment, one or more decision-making elements of traveling controller circuitry 334 are arranged in high-tension electricity In induction system 205 or surrounding various positions.In embodiment, by the one or more of the traveling controller circuitry Decision-making element is arranged in one or more mobile devices 380.In embodiment, one of the traveling controller circuitry or Multiple decision-making elements are configured for independent action mutually to control the scheduling of one or more mobile devices.

In embodiment, TSM instrument 320 further comprises computer-readable medium 339, the computer-readable medium by with It is set to the traversal arranged of the part for storing the high-tension electricity induction system 205 carried out by the mobile device.

In embodiment, mobile device 380 is configured for the part progress to the high-tension electricity induction system 205 Travel through and for checking the potential operational risk assessed.In embodiment, the mobile device is configured for The part of the high-tension electricity induction system is traveled through and for being addressed to the potential operational risk assessed.Example Such as, the potential operational risk assessed is addressed to include beginning a task with.For example, to the potential operational risk assessed It is addressed to include checking, evaluate, repair or asking additional information or instruction.In embodiment, the mobile device by with It is set to for the automatically potential operation to being assessed to be traveled through and be used for the part of the high-tension electricity induction system Risk is addressed.In embodiment, the mobile device is configured for automatically being somebody's turn to do the high-tension electricity induction system Part is traveled through and for being automatically addressed to the potential operational risk assessed.In embodiment, the movement is set It is standby to be configured for traveling through the part of the high-tension electricity induction system and for the potential behaviour on being assessed Make risk promotional activities.In embodiment, the mobile device is configured for the part to the high-tension electricity induction system Traveled through and initiate maintenance or maintenance activity for the potential operational risk on being assessed.In embodiment, the movement Equipment includes robot moving equipment, and the robot moving equipment is configured for the portion to the high-tension electricity induction system Divide and traveled through and for independently being addressed to the potential operational risk assessed.For example, in embodiment, mobile machine People's equipment includes being designed to have speed and accuracy to repeat the mobile device of one or more tasks. http:(it is 2012 that the last time accesses to //searchcio-midmarket.techtarget.com/definition/robot On January 25, in).In embodiment, the mobile device is configured for the part progress to the high-tension electricity induction system Travel through and be used for maintenance and/or the maintenance operation for performing the potential operational risk in response to being assessed.In embodiment, the shifting Dynamic equipment is configured for traveling through the part of the high-tension electricity induction system and for automatically carrying out response Maintenance and/or maintenance operation in the potential operational risk assessed.Its of the mobile device is provided with reference to Figure 10 to Figure 17 His example.

Example context 300 includes being illustrated as including the remote computing environment of the computing environment 392 of display 394.In reality Apply in example, the computing environment includes computing environment 19 described in conjunction with Figure 1 or computing environment described in conjunction with Figure 2 100 One or more elements.Example context 300 includes personnel 396.In an environment, computing environment 392 can be handed over the personnel Mutually, output (including by display 394) is provided such as from the personnel's receives input or to the personnel.In embodiment, ring is calculated Border 392 can be with the wired or wireless communication of TSM instrument 320.

In embodiment, the TSM instrument 320 includes communication module 328, and the communication module is further configured to for defeated Go out the data of the traversal for the conveying circuit arranged that instruction is carried out by the mobile device.For example, the communication module can be by It is disposed for the output data in wired or wireless communication path.

One predictive example of the operation of the TSM instrument in use is referred to Fig. 3 and Fig. 4 displayings.For example, TSM works The acceptor circuit 322 of tool 320 receives instruction and is configured for from a specific transformer station transporting electric power to another change The data of at least one physical parameter of the high-tension electricity induction system 205 in power station.For example, the high-tension electricity induction system can be with It is big angstrom (Big Eddy) transformer station to the State of Washington Ge Er for being established as the BPA near Ore. Da Ersi city The specific 500kV to be transmitted electric power between the transformer station of 4 miles of Deng Daier cities northwest makes somebody a mere figurehead power transmission system.Physical parameter can be with The failure at age, insulator including the insulator along system or the date of maintenance history or insulator last clearing.

Continue this predictive example, analysis circuit 324 is based on received data assessment and this specific high-tension electricity is conveyed The potential operational risk of a part for system.Potential operational risk can include deterioration or the failure of insulator.Planning circuit 326 Arrange the inspection stroke on the conveying circuit of the system carried out by mobile device.The arrangement is based on being assessed to the system Potential operational risk, and can it is determined that by when arrange in the inspection stroke to the potential operational risk assessed can Importance (for example, complete failure vs. slight power loss) can be operated to be weighted.For example, planning circuit can arrange to move Equipment 380 is advanced on conveying circuit 230.2 and performs insulator set 220A, 220B on each tower 210 etc. Inspection traversal.If operational risk is categorized as it is slight, can be in some following convenient arrangement of time traversal.Work as movement Equipment has the ability to check the insulator 220.A1 and 220A.3 of the position on conveying circuit 230.2, will can convey The selection of circuit 230.2 accesses for the inspection provided to the insulator of high-tension electricity induction system.If mobile device does not have energy Power leaves the insulator of advanced conveying circuit to check, planning circuit can arrange mobile device on three strip transmission line roads 230.1st, every in 230.2 and 230.3 is upper advances, and performs the correspondence proving traversal for the insulator for supporting every circuit. For example, the traversal of conveying circuit 230.1 accesses the inspection for being supplied to mobile device to insulator 220A.1 and 220B.1.Communication Module 328 is configured for the data of the traversal for the conveying circuit arranged that output indication is carried out by the mobile device. In this predictive example, communication module is by output indication in selected day and arrangement of time mobile device in conveying circuit Advancing to perform the data of insulator set 220A, 220B on each tower 210 etc. inspection traversal on 230.2.

Fig. 5 illustrates example context 400.The environment is included by induction system management tool 420 (being hereafter " TSM instrument ") The device of displaying.The environment includes power transmission system, and the power transmission system is by being configured for electric power from a ground Side transports another place and high-tension electricity induction system described in conjunction with Figure 3 205 is shown, and also by the institute of tower 210 Displaying.The environment includes mobile device 480.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

TSM instrument 420 is configured for assessing the potential inspection of the structure associated with high-tension electricity induction system 205 And/or maintenance needs.TSM instrument is further configured to correspondingly arrange by moving in response to potential inspection and/or maintenance needs The traversal of the conveying circuit for the high-tension electricity induction system that dynamic equipment is carried out.Mobile device is configured for traveling through high-tension electricity The conveying circuit of induction system, and perform action in response to potential inspection and/or maintenance needs.The high-tension electricity induction system It is configured for electric power from a local transport to another place, and the conveying circuit provides the visit to the structure Ask.

In embodiment, conveying circuit management tool 420 is configured for correspondingly arranging and dispatching by mobile device The traversal of the conveying circuit of 480 systems carried out.

In embodiment, mobile device 480 is configured for traveling through while traveling on conveying circuit in use Another strip transmission line road.In embodiment, mobile device is configured for conveying circuit and/or associated with conveying line segment Structure is passively or actively electric checking.In embodiment, mobile device is configured for measuring the physics of the conveying circuit Parameter, these physical parameters include one or more of temperature, cleannes, pressure tension force, and/or sag.In embodiment In, mobile device includes being configured for the camera or radar for being addressed the vegetation gap of the conveying circuit.In reality Apply in example, mobile device is configured for automatically responding to the potential inspection and/or maintenance needs.It is mobile in embodiment Equipment is configured for automatically going through conveying line segment and for automatically responding to the potential inspection and/or maintenance needs. In embodiment, mobile device is configured for initiating the activity on the potential inspection and/or maintenance needs.In embodiment In, mobile device be configured for traversal conveying circuit and for the potential inspection assessed of conveying circuit and/or Maintenance needs are independently addressed.In embodiment, mobile device at least substantially can be set with movement described in conjunction with Figure 4 Standby 380 is similar.

In embodiment, TSM instrument 420 can include acceptor circuit 422 and assessment circuit 424, planning circuit 426th, communication module 428, mobile device selector circuit 432, traveling controller circuitry 434, computing device 450 or with calculating The computer memory device 338 that machine computer-readable recording medium 339 couples.

Fig. 6 illustrates example operational flow 500.After a start operation, operating process includes receiving operation 510.This connects Work of bringing drill to an end, which includes receiving, to be indicated to be configured for power transmission system of the electric power from a local transport to another place At least one physical parameter data., can be real using acceptor circuit 322 described in conjunction with Figure 4 in embodiment Now receive operation.Analysis operation 530 includes being based at least partially on received data assessment to the one of the power transmission system Partial potential operational risk.In embodiment, behaviour can be received using analysis circuit 324 described in conjunction with Figure 4 to realize Make.Program operation 540 include in response to the potential operational risk arrangement assessed by mobile device carry out in conveying circuit Traversal at least a portion.The conveying circuit is provided to the access of the part of the power transmission system., can in embodiment To realize program operation using planning circuit 326 described in conjunction with Figure 4.The mobile device is configured for traveling through electric power The conveying circuit of the induction system and potential operational risk assessed in response to the power transmission system performs action.In reality Apply in example, mobile device can be realized using mobile device 380 described in conjunction with Figure 4.The operating process includes terminating to grasp Make.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

In embodiment, program operation 540 can include at least one additional operations, such as operation 542.Operation 542 includes Potential operational risk is assessed on the second high-tension electricity induction system to the first of the Part I of high-tension electricity induction system Second assessment potential operational risk is prioritized and the traversal of the first conveying line segment is arranged in response to the priorization.This is preferential Change is based at least partially on the first assessment potential operational risk and second evaluation operation risk.

Fig. 7 illustrates the alternate embodiment of Fig. 6 reception operation 510.Reception operation can include at least one additional Operation.At least one additional operations can include operation 512, operation 514 or operation 516.Operation 512 includes receiving instruction It is at least one that there is influence on the high-tension electricity induction system or it is expected that have the data of influential event.Operation 514 includes connecing Receive instruction influence the high-tension electricity induction system it is current condition, by operating another in the high-tension electricity induction system The data that mobile device provides.Operation 516 includes receiving the assessed potential operational risk of instruction the first mobile device satisfaction Ability and the second mobile device meet the data of the ability of assessed potential operational risk.

Fig. 8 illustrates the alternate embodiment of Fig. 6 operating process 500.The operating process can include at least one operation, It is shown as operation 550.Operation 550 can include operation 552, operation 554, operation 556, operation 558, operation 562 or operation 564.Operation 552 is included from the first mobile device with the first ability for responding assessed potential operational risk and with sound The second mobile device of the second ability of assessed potential operational risk is answered to select specific mobile device to perform what is arranged Traversal.Operation 554 includes the traversal arranged that control is carried out by the mobile device.Operation 556 is included in computer-readable Jie The data for the traversal arranged that storage instruction is carried out by the mobile device in matter.Operation 558 includes output indication by the movement The information data for the traversal arranged that equipment is carried out.Operation 562 includes the traversal arranged that will be carried out by the mobile device Concrete visual depiction is transformed to, and exports the concrete visual depiction.Operation 564 includes being based at least partially on being set by the movement At least one offer notice of the standby traversal arranged carried out into the mankind, computer or system.

In embodiment, mobile device is configured for automatically going through real-time conveying circuit and for automatically ringing Answer assessed potential operational risk.In embodiment, mobile device includes robot moving equipment, the robot moving equipment It is configured for autonomous traversal real-time conveying circuit and the potential operational risk for being assessed from main response.In embodiment In, high-tension electricity induction system includes aerial high-voltage power transmission system.In embodiment, high-tension electricity induction system includes tool Body high-tension electricity induction system.

Fig. 9 illustrates computer program product 600.Computer program product includes the computer of carrying programmed instruction 620 Computer-readable recording medium 610.When by the computing device of computing device, these programmed instruction cause the computing device implementation procedure.Should Process, which includes receiving, to be indicated to be configured for electric power from a local transport to the power transmission system of another place The data of at least one physical parameter.The process includes being based at least partially on received data assessment to the power Transmission system The potential operational risk of a part for system.The process includes being carried out by mobile device based on the potential operational risk arrangement assessed The traversal in real-time conveying circuit.The real-time conveying circuit is provided to the access of the part of the power transmission system.Should Mobile device is configured for traveling through real-time conveying circuit and the potential operational risk in response to being assessed is defeated in the electric power Send and action is performed in system.

In embodiment, the process includes 622 and is based at least partially on to indicate the data of arranged traversal to the mankind, meter At least one offer notice in calculation machine or system.In embodiment, the process, which includes 624, to indicate arranged traversal Data are transformed to concrete visual depiction, and export the concrete visual depiction.In embodiment, the process includes 626 outputs and referred to Show the data of the traversal of the real-time conveying circuit arranged carried out by the mobile device.

In embodiment, computer-readable medium 610 includes tangible computer-readable medium 612.In embodiment, calculate Machine computer-readable recording medium includes communication media 614.In embodiment, the power transmission system includes high-tension electricity induction system.In reality Apply in example, the power transmission system includes electric power distribution system.

Figure 10 illustrates example context 700.The environment includes the conveying circuit of real-time electric power induction system, the conveying circuit It is shown as the real-time conveying circuit 230.1 of aerial high-voltage power transmission system 205 described in conjunction with Figure 3.The environment also wraps Include robot moving equipment 705.The mobile device includes movable chassis 707, and the movable chassis is configured for by promoting system System 710 is promoted and advanced in the real-time conveying circuit of power transmission system.The mobile device includes checking module 722, the inspection Module physical it is associated with movable chassis and be configured for automatically checking associated with real-time electric power induction system Structure.The mobile device includes risk evaluation module 724, the risk evaluation module it is physically associated with movable chassis and It is configured for checking potential risk of the data assessment to power transmission system in response to what is provided by inspection module.The movement Equipment includes communication module 726, and the communication module is physically associated with movable chassis and is configured for output indication The data for the potential risk assessed.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

It would be recognized by those skilled in the art that in embodiment, the various aspects of robot moving equipment 705 can use Hardware, software, and/or firmware implementation are realized.It would be recognized by those skilled in the art that in embodiment, mobile device Various aspects can by it is various types of have broad range of electric component (such as hardware, software, firmware and/or its almost appoint What is combined) Mechatronic Systems individually and/or jointly realize.It would be recognized by those skilled in the art that in embodiment, move The various aspects of dynamic equipment can use the general of the one or more concrete functions for being programmed to execute or moving equipment Computer is realized.It is, for example, possible to use computing device 732 realizes the various aspects of mobile device., can be with embodiment Computing device is partially or completely realized using general thin computing device 20 described in conjunction with Figure 1., can in embodiment Partially or completely to realize computing device using dedicated computing equipment 100 described in conjunction with Figure 2.

In embodiment, the real-time conveying circuit is aerial real-time conveying circuit.In embodiment, the real-time conveying circuit It is underground real-time conveying circuit.

The example for promoting movable chassis is described by Fil Man Desi (Fermandes) U.S. Patent number 4904996.By Authorize the U.S. Patent number 7496459 of MacAlister (McAllister) and authorize MacAlister U.S. Patent Application Publication 2008/0249723 describes the example for promoting movable chassis.By authorizing the U.S. Patent number 7282944 of gunn (Gunn), authorizing Gunn U.S. Patent Application Publication 2008/0246507 and authorize gunn U.S. Patent Application Publication 2005/0017751 and describe Promote the example of movable chassis.Described by the U.S. Patent number 6494141 for authorizing Meng Tamu Bauers special (Montambault) Promote the example of movable chassis.

By B ginger (B Jiang) and AV fiber crops Mei Shefu (AV Mamishev), the mobile monitoring of power system and maintenance (Mobile Monitoring and Maintenance of Power Systems) (University of Washington) (undated) ( http://www.ee.washington.edu/research/seal/pubfiles/Sci07.pdf (on 2 29th, 2012) Access) describe the example for promoting movable chassis.Lee T (T Li), F Lijins (F Lijin) and the grand light (W of W Hongguang), for 500kV ultrahigh voltage power conveying circuits inspection machine people's control system development (Development of an Inspection Robot Control System for 500kV Extra-High-voltage Power Transmission Lines) (SICE 2004 can, Sapporo, Japanese (in August, 2004)) describe and promote showing for movable chassis Example.By A Dursos Sa (A.De Souza) et al., inspection machine people (the Inspection Robot for high-pressure delivery circuit For High-Voltage Transmission Lines) (2004 electromechanical integration ABCM lexical or textual analysis symposium serieses 1-7 Page) (in http://www.abcm.org.br/symposiumseries/ssm_vol1/section_i_robotics/ssm_ I_01.pdf is accessed for (on 2 29th, 2012)) describe the example for promoting movable chassis.By Xiao X (X Xiao) et al., it is used for The inspection machine people of high-tension electricity conveying circuit and its dynamic learning (Inspection Robot for High-voltage Power Transmission Line and its Dynamic Study) (Wuhan University, China) (undated) ( http://www.intechopen.com/source/pdfs/5322/InTech-An_inspection_robot_f or_ High_voltage_power_transmission_line_and_its_dynamics_st udy.pdf (2 months 2012 29 Day) access) describe the example for promoting movable chassis.By Z front yards rain (Z Tingyu) et al., for the double of high-voltage electric power circuit Development (the Development of a Dual-Arm mobile Robot for High-voltage of arm mobile robot Power Lines) (IEEE robots and bionics international conference, 2007 1924-1929 pages of (ROBIO 2007)) describe and push away Enter the embodiment of movable chassis.By N general inner (N Pouliot) difficult to understand et al., the geometry designs of circuit investigation, for power circuit Remote-controlled robot (Geometric Design of the LineScout, a Teleoperated Robot of examination and maintenance For Power Line Inspection and Maintenance) (IEEE robot and automation international conferences, 2008 (ICRA 2008)) describe the embodiment for promoting movable chassis.By S Meng Tamu Bauers special (S Montambault) et al., Design and (the Design and Validation of a that come into force for the mobile robot of power circuit examination and maintenance Mobile Robot for Power Line Inspection and Maintenance) (scene and service robot-FSR 6th international conference, 2007, Chamonix, France, 2007) (in http://hal.inria.fr/docs/00/19/47/17/ PDF/fsr_15.pdf is accessed for (on 2 29th, 2012)) describe the example for promoting movable chassis.By H Sang Saigongduo (H San Segundo) et al., the automation inspection of electric conveying circuit：Electric power supply system (Automated Inspection of Electric Transmission Lines:The power supply system) (IEEE 2006) (in http:// ieeexplore.ieee.org/stamp/stamp.jspTp=＆arnumber=4152907＆userTyp e=＆tag=1 (on March 5th, 2012) accesses) describe the example for promoting movable chassis.

In embodiment, check that module 722 is configured for as potential damage or deteriorates automatically inspection structure.In reality Apply in example, check that module is configured for the potential damage to be caused by normal wear or deteriorates automatically inspection structure. In embodiment, check that module is configured for the potential damage by the aging of structure to be caused or deteriorated automatically to check knot Structure.In embodiment, check that module is configured for the potential damage by weather events to be caused or deteriorated automatically to check Structure.In embodiment, check that module is configured for the potential damage by ponding to be caused or deteriorated automatically to check knot Structure.In embodiment, check that module is configured for needing automatically inspection structure for potential maintenance, repair or modification. In embodiment, check that module is configured for automatically being checked for infringement vegetation.In embodiment, the structure includes should Conveying circuit, other conveying circuits associated with power transmission system, insulator, ground path, pipe sleeve, refrigeration system or At least one of tower.

In embodiment, risk evaluation module 724 is configured for the data assessment in response to being provided by inspection module Potential risk from normal wear to power transmission system.In embodiment, risk evaluation module is configured for responding In the potential risk by the data assessment that inspection module provides from infringement vegetation to power transmission system.In embodiment, wind Dangerous evaluation module is configured for assessing the potential risk from infringement vegetation to power transmission system.The assessment response in by Check the data that module provides and in response to indicating the data in the infringement vegetation of previous inspection department.For example, it is desirable to potential The assessment of risk includes providing the baseline how soon grown for assessing infringement vegetation from the data previously checked.Implementing In example, risk evaluation module is configured for assessing the potential risk from infringement vegetation to power transmission system.The assessment Determined in response to the data provided by inspection module and in response to imaging, triangulation and/or flight time measurement data The height or length of infringement vegetation.In embodiment, risk evaluation module is configured for assessing from infringement vegetation to electricity The potential risk of power induction system.The assessment response is in the data provided by inspection module and in response to one or more local Geographical or topographic survey factor.It is in power circuit above, below or side, and/or plant that these factors, which can include vegetation, It is from power circuit upward slope or contrary wind.

In embodiment, mobile device 705 includes maintenance module 728, and the maintenance module is physically related to movable chassis Join and be configured in response to the potential risk assessed perform relative to power transmission system maintenance, repair or Modification activity.In embodiment, maintenance module is configured for automatically carrying out the maintenance relative to power transmission system, dimension Repair or modification activity.In embodiment, maintenance module is configured in response to the Authorization execution received relative to electric power The maintenance, repair of induction system or modification activity.In embodiment, it is defeated with electric power that maintenance module is configured for maintenance pair Send the damage or deterioration of the associated structure of system.In embodiment, maintenance module is configured for repairing or changed and electricity The associated insulator of power induction system.In embodiment, maintenance module is configured for pair related to power transmission system The structure of connection performs maintenance, repair or modification activity.In embodiment, maintenance module is configured for trimming infringement and electricity The vegetation of the associated structure of power induction system.In embodiment, it is defeated with electric power that maintenance module is configured for trimming infringement Send the vegetation of the associated structure of system.The trimming can by electric energy, photon energy or chemical spray, and/or physics cutting come Deliver.In embodiment, maintenance module is configured for maintenance or clean electric power line insulators.In embodiment, safeguard Module is configured for as conveying circuit deicing.In embodiment, maintenance module is configured for deicer or liquid Apply to conveying circuit.In embodiment, maintenance module is configured for as conveying circuit mechanical deicing.In embodiment, Maintenance module is configured for applying heat to conveying circuit.For example, heat can be by blowing warm air or by resistance heating To apply.

Figure 10 also illustrates another embodiment of example context 700.The present embodiment includes the He of robot moving equipment 705 Induction system management tool (is hereafter referred to as TSM instrument 760).Robot device is configured in power transmission system Advanced on conveying circuit and for automatically checking the structure associated with power transmission system.TSM instrument is configured to use In checking data assessment to the potential risk of power transmission system in response to what is provided by mobile device, and it is respectively used for sending out Rise the structure relative to power transmission system carried out by robot moving equipment or another mobile device maintenance, repair, Or modification activity.In embodiment, TSM instrument can include communication module 762, planning module 764, risk evaluation module 766, Or computing device 768.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

It would be recognized by those skilled in the art that in embodiment, the various aspects of TSM instrument 760 can use hardware, soft Part, and/or firmware implementation are realized.It would be recognized by those skilled in the art that in embodiment, the various aspects of TSM instrument Can by it is various types of have broad range of electric component (such as hardware, software, firmware and/or its substantially any combination) Mechatronic Systems individually and/or is jointly realized.It would be recognized by those skilled in the art that in embodiment, TSM instrument it is each Individual aspect can be come real using the all-purpose computer for the one or more concrete functions for being programmed to execute or carrying out TSM instrument It is existing.It is, for example, possible to use computing device 768 realizes the various aspects of TSM instrument.In embodiment, it can use and combine Fig. 1 Described general thin computing device 20 partially or completely realizes computing device.In embodiment, it can use and combine Dedicated computing equipment 100 described by Fig. 2 partially or completely realizes computing device.

In embodiment, robot moving equipment 705 is further configured to be used for and TSM instrument 760 wirelessly communicates. In embodiment, induction system management tool is further configured to be used for and robot moving equipment wirelessly communicates.In reality Apply in example, induction system management tool is further configured to be used to be still in fixed position.In embodiment, delivery system is under the overall leadership Science and engineering tool is configured for checking potential risk of the data assessment to power transmission system in response to what is provided by mobile device. Induction system management tool is configured for correspondingly arranging and authorizes robot moving equipment or another mobile robot Equipment performs the maintenance, repair of the structure relative to power transmission system or modification activity.

Figure 11 illustrates example context 800.The environment includes the conveying circuit of power transmission system, and the conveying circuit is opened up It is shown as the conveying circuit 230.1 of aerial high-voltage power transmission system 205 described in conjunction with Figure 3.The environment also includes moving machine Device people equipment 805.The mobile device includes movable chassis 807, and the movable chassis is configured for being promoted by propulsion system 710 Advanced on the conveying circuit of power transmission system.The mobile device includes vegetation and checks module 822, and the vegetation checks module thing Reason ground is associated with movable chassis and is configured for measuring the plant of the part growth of stilts power transmission system By characteristic.For example, Figure 11 illustrates the vegetation 802 for closing on the growth of 803 conveying circuits 230.1.The mobile device includes communication mould Block 826, the communication module is physically associated with movable chassis and is configured for the spy of the vegetation measured by output indication The data of property.

It would be recognized by those skilled in the art that in embodiment, the various aspects of mobile device 805 can use hardware, soft Part, and/or firmware implementation are realized.It would be recognized by those skilled in the art that in embodiment, each side of mobile device Face can have broad range of electric component (such as hardware, software, firmware and/or its substantially any combination) by various types of Mechatronic Systems individually and/or jointly realize.It would be recognized by those skilled in the art that in embodiment, mobile device Various aspects can be come using the all-purpose computer for the one or more concrete functions for being programmed to execute or moving equipment Realize.It is, for example, possible to use computing device 832 realizes the various aspects of mobile device.In embodiment, it can use and combine General thin computing device 20 described by Fig. 1 partially or completely realizes computing device 832.In embodiment, it can make Computing device 832 is partially or completely realized with dedicated computing equipment 100 described in conjunction with Figure 2.

In embodiment, closing on the vegetation 802 of growth includes the one of previously known stilts power transmission system 205 The vegetation of some growth.In embodiment, closing on the vegetation of growth includes not previously known stilts power transmission system The vegetation of part growth.

In embodiment, vegetation checks that module 822 includes sensor 823, and it is relative that the sensor is configured for measurement In the height or length of the vegetation of conveying circuit.In embodiment, the sensor includes camera, radar, laser radar or sound Equipment.

In embodiment, communication module 862 is configured for the number of the vegetation characteristic measured by wirelessly output indication According to.For example, the data of the vegetation characteristic measured by instruction can wirelessly be passed on to vegetation management instrument 860.In embodiment, Vegetation management instrument can include planning module 864 or risk evaluation module 866.In embodiment, vegetation management instrument includes Computing device 872.In embodiment, communication module is configured for and is configured for trim the maintenance module of vegetation 828 communications.

In embodiment, mobile device 805 includes maintenance module 828, and the maintenance module is physically related to movable chassis Join and be configured for trimming the vegetation of the part growth of stilts power transmission system.In embodiment, safeguard Module is configured for closing on aerial power Transmission in response to the data trimming of the vegetation characteristic measured by the instruction that is exported The vegetation of the part growth of system.In embodiment, maintenance module, which is configured for automatically trimming, closes on aerial electric power The vegetation of the part growth of induction system.In embodiment, maintenance module is configured in response to by vegetation management work The vegetation of the part growth for the instruction trimming stilts power transmission system that tool is initiated.

Figure 12 illustrates example context 900.The environment includes the conveying circuit of power transmission system, and the conveying circuit is opened up It is shown as the conveying circuit 230.1 of aerial high-voltage power transmission system 205 described in conjunction with Figure 3.The environment also includes movement and set Standby 905 and vegetation management instrument 960.The mobile device be configured on the conveying circuit of power transmission system or along Its traveling and the one or more characteristics for measuring the vegetation of infringement power transmission system.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

In embodiment, mobile device 905 can include vegetation measurement module 922, vegetation control module 924 or communication Module 926.In embodiment, mobile device is further configured to carry out the risk assessed for trimming infringement vegetation Addressing.It is, for example, possible to use vegetation control module 924 realizes trimming infringement vegetation.In embodiment, mobile device is configured Into for trimming vegetation using electrically or optically son energy, chemical spray, and/or physics cutting.

It would be recognized by those skilled in the art that in embodiment, the various aspects of mobile device 905 can use hardware, soft Part, and/or firmware implementation are realized.It would be recognized by those skilled in the art that in embodiment, each side of mobile device Face can have broad range of electric component (such as hardware, software, firmware and/or its substantially any combination) by various types of Mechatronic Systems individually and/or jointly realize.It would be recognized by those skilled in the art that in embodiment, mobile device Various aspects can be come using the all-purpose computer for the one or more concrete functions for being programmed to execute or moving equipment Realize.It is, for example, possible to use computing device 932 realizes the various aspects of mobile device.In embodiment, it can use and combine General thin computing device 20 described by Fig. 1 partially or completely realizes computing device.In embodiment, knot can be used The dedicated computing equipment 100 described by Fig. 2 is closed partially or completely to realize computing device.

Vegetation management instrument 960 be configured for being addressed measured one or more characteristics and assess by The risk to power transmission system that infringement vegetation is formed.In embodiment, vegetation management instrument can include communication module 962nd, vegetation evaluation module 964, planning module 966 or vegetation risk evaluation module 974.In embodiment, vegetation management instrument Be configured for being based at least partially on commonly available guide and/or agreement assessment be made up of infringement vegetation it is defeated to electric power Send the risk of system.In embodiment, vegetation management instrument is configured for being based at least partially on commonly available guide And/or the risk to power transmission system that agreement assessment is made up of infringement vegetation.In embodiment, vegetation management instrument by with It is set to for assessing the risk to power transmission system being made up of infringement vegetation.It is based at least partially on and is used for power Transmission system The particular guideline and/or agreement of system assesses risk.In embodiment, vegetation management instrument be configured for using imaging, Triangulation, and/or flight time measurement data determine the height of infringement vegetation or length.In embodiment, vegetation management Instrument is configured for determining infringement vegetation and conveying circuit in response to one or more characteristics of measured infringement vegetation Between gap.In embodiment, vegetation management instrument is configured for assessing from infringement vegetation to power Transmission system The risk of system.Based on one or more local geographicals or topographic survey factors assessment risk, these local geographicals or topographic survey It is in power transmission system above, below or side that factor, which includes infringement vegetation, and/or infringement vegetation is from power Transmission system System goes up a slope or contrary wind.In embodiment, vegetation management instrument is configured for height based on infringement vegetation or length The time Green wave of change assesses the risk from infringement vegetation to conveying circuit.In embodiment, vegetation management instrument quilt It is disposed for being addressed the measured gap between infringement vegetation and power transmission system.Vegetation management instrument is also It is configured for automatically assessing the risk to conveying circuit being made up of infringement vegetation based on measured gap.Implementing In example, vegetation management instrument is configured for carrying out the measured gap between infringement vegetation and power transmission system Addressing.Vegetation management instrument is further configured to the conveying circuit based on measured gap and based on power transmission system Specific sag value automatically assesses the risk to conveying circuit being made up of infringement vegetation.In embodiment, vegetation management instrument It is configured for being addressed the measured gap between infringement vegetation and the conveying circuit of power transmission system.Plant The specific wind environment that the instrument of being managed is further configured to based on measured gap and based on conveying circuit is automatically assessed The risk to conveying circuit being made up of infringement vegetation.For example, the specific wind environment can include estimated or existing wind environment.

Figure 17 illustrates environment 1400.The environment includes power transmission system, the insulation shown by tower 210A part Body 220A.1 and the conveying circuit of high-tension electricity induction system described in conjunction with Figure 3 205 230.1.The environment also includes system 1405.The system includes static equipment 1420 and mobile device.The static equipment is configured for being electrically coupled to power Transmission Fixed position is maintained on the conveying circuit of system and during the test measurement of power transmission system.The static equipment is opened up Conductor 1412 and connector 1414 are shown to employ coupled on conveying circuit.The mobile device is configured in conveying circuit Upper traveling.In embodiment, the mobile device can at least substantially with mobile device 1005 described in conjunction with Figure 13 or move Dynamic equipment 1070 is similar.In embodiment, the mobile device includes robot moving equipment.The static equipment and the mobile device It is further configured to the property for cooperative measuring power transmission system.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

In embodiment, static equipment 1420 and mobile device are configured for cooperative measuring positioned at the static equipment The property of the component of power transmission system between the mobile device.In embodiment, the static equipment and the mobile device It is configured for automatically and cooperative measuring the property of power transmission system.In embodiment, the static equipment and the shifting Dynamic equipment is configured for cooperative measuring the electric and/or engineering properties of power transmission system.In embodiment, this is static Equipment and the mobile device are configured for automatically and cooperative determining to support or the electricity of the insulator of holding conveying circuit Press face-off ability.In embodiment, one of the static equipment or the mobile device are configured for test exciting application extremely Conveying circuit, and another in the static equipment or the mobile device is configured for measuring the conveying circuit to the survey Try the response excited.

In embodiment, test stimulating frequency is in about nominal conveying circuit stimulating frequency.In embodiment, test excites Frequency is different from nominal conveying circuit stimulating frequency.In embodiment, real-time conveying circuit carry excite in about zero Test is excited application to real-time conveying circuit by infall.In embodiment, include not more than adding deduct in about zero crossing Real-time conveying circuit carry excite in ten degree of zero crossing.In embodiment, include being not more than in about zero crossing Add deduct real-time conveying circuit carry excite in five degree of zero crossing.In embodiment, include in about zero crossing Not more than add deduct real-time conveying circuit carry excite in zero crossing twice.In embodiment, in about zero crossing Place include be not more than add deduct real-time conveying circuit carry excite in zero crossing once.In embodiment, real-time Test is excited into application to real-time conveying circuit during the selection time portion for the frequency cycle excited that conveying circuit carries. In embodiment, mobile device, which is configured for testing exciting, to be applied to supporting or keep the insulator of conveying circuit and quiet Only equipment is configured for measuring the response that the insulator excites the test.In embodiment, static equipment and movement are set It is standby be configured for cooperative carrying out conveying circuit and/or the structure associated with conveying circuit be passively or actively electric inspection Look into.In embodiment, static equipment and mobile device are configured for cooperative measuring physical transport line parameter circuit value, these things Managing conveying circuit parameter includes one or more of temperature, cleannes, pressure tension force, and/or sag.

In embodiment, mobile device 1005 includes sensor (not showing), and the sensor is configured for measuring edge The height or length of the infringement vegetation of conveying circuit.In embodiment, the sensor include camera, radar, laser radar, Or sonar set.

In embodiment, system 1405 includes test controller 1460, the test controller be configured for management by The cooperation measurement of the property for the power transmission system that static equipment 1420 and mobile device 1005 are carried out.In embodiment, the survey Examination controller is further configured to the aspect for controlling the traveling on the conveying circuit carried out by mobile device.In embodiment In, the test controller is further configured to the cooperation measurement of the property for initiating power transmission system.In embodiment, The test controller is further configured to for receiving the property for indicating cooperative to measure from static equipment or mobile device Data.In embodiment, the test controller is further configured to for exporting what is cooperative measured in response to instruction The information data of the data of property.

Embodiment includes method.After a start operation, the operating process of this method is included in the static of fixed position Equipment is electrically coupled on the conveying circuit of power transmission system.For example, in embodiment, can be by using conductor 1412 and connection Static equipment 1420 is electrically coupled on conveying circuit 230.1 described in conjunction with Figure 17 and realizes this operation by device 1414.The behaviour Making flow includes initiating traveling to selected position conveying circuit on of the mobile device on conveying circuit 230.1.Example Such as, in embodiment, can tied using traveling control module 1052 described in conjunction with Figure 14 by initiation mobile device 1005 The traveling on the conveying circuit described by Figure 17 is closed to realize this operation.The operating process is set including the use of static equipment and movement The property of the structure of standby measurement power transmission system.Static equipment and mobile device are configured for cooperative measuring the structure Property.The operating process includes the data of the structural property measured by output indication.For example, in embodiment, can use Communication module 1028 or communication module described in conjunction with Figure 14 1056 realize this operation.The operating process includes terminating to grasp Make.In embodiment, the operating process can include at least one additional operations.At least one additional operations can include pipe The cooperation measurement of the property for the power transmission system that reason static equipment and mobile device are carried out.In embodiment, it can use Cooperating control module 1054 described in conjunction with Figure 14 realizes this operation.

Figure 13 illustrates environment 1000.The environment includes power transmission system, the insulation shown by tower 210A part Body 220A.1 and the conveying circuit of high-tension electricity induction system described in conjunction with Figure 3 205 230.1.The environment also includes system 1002.The system includes at least two mobile devices, is shown as the first mobile device 1005 and the second mobile device 1070.Should At least two mobile devices are configured for (i) on the conveying circuit of power transmission system or along its traveling, and should At least two mobile devices be further configured to be used for (ii) cooperative measurement conveying circuit and/or with power transmission system phase The property of the other structures of association.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

Figure 14 illustrates the embodiment of Figure 13 mobile device 1005.The mobile device includes movable chassis 1007, the shifting Motivation case is configured for being promoted by propulsion system 710 and advanced on the conveying circuit of power transmission system.The mobile device 1005 can include property measurement module 1022, cooperation module 1024, maintenance module 1026 or communication module 1028.The property Measurement module be configured for the cooperation measurement conveying circuit of Figure 13 mobile device 1070 and/or with power transmission system phase The property of the other structures of association.The cooperation module is configured for promoting in conveying circuit and/or and power transmission system In the measurement of the property of associated other structures with the cooperation of mobile device 1070.The communication module is configured for and is somebody's turn to do Another mobile device communication at least two mobile devices or moving equipment management tool.

It would be recognized by those skilled in the art that in embodiment, the various aspects of mobile device can use hardware, software, And/or firmware implementation is realized.It would be recognized by those skilled in the art that in embodiment, the various aspects of mobile device can With by various types of machines with broad range of electric component (such as hardware, software, firmware and/or its substantially any combination) Electric system individually and/or is jointly realized.It would be recognized by those skilled in the art that in embodiment, mobile device it is each Aspect can be realized using the all-purpose computer for the one or more concrete functions for being programmed to execute or moving equipment. It is, for example, possible to use computing device 1032 realizes the various aspects of mobile device.In embodiment, it can use and combine Fig. 1 Described general thin computing device 20 partially or completely realizes computing device.In embodiment, it can use and combine Dedicated computing equipment 100 described by Fig. 2 partially or completely realizes computing device.

Reference picture 13 and Figure 14, in embodiment, mobile device 1005 and mobile device 1070 can be substantially similar 's.In embodiment, a mobile device at least two mobile device is robot moving equipment.In embodiment, Two mobile devices at least two mobile device are robot moving equipments.In embodiment, the power transmission system Including making somebody a mere figurehead power transmission system.In embodiment, the power transmission system includes underground electric induction system.In embodiment In, at least two mobile device be further configured to be used for automatically and cooperative measurement conveying circuit and/or with conveying The property of the associated other structures of circuit.In embodiment, at least two mobile device is further configured to be used to close Make the electric and/or engineering properties of ground measurement conveying circuit and/or the other structures associated with conveying circuit.In embodiment In, at least two mobile device is further configured to the group for cooperative measuring the power transmission system being disposed between The property of part.In embodiment, at least two mobile device is further configured to be used for automatically and cooperative to determine branch Hold or keep the voltage face-off ability of the insulator of conveying circuit.For example, in embodiment, mobile device 1005 is configured to use It is configured for measuring the conveying circuit to the test in exciting to apply to conveying circuit and mobile device 1070 test The response excited.

In embodiment, test stimulating frequency is in about nominal conveying circuit stimulating frequency.In embodiment, test excites Frequency is different from nominal conveying circuit stimulating frequency.In embodiment, real-time conveying circuit carry excite in about zero Test is excited application to real-time conveying circuit by infall.In embodiment, include not more than adding deduct in about zero crossing Real-time conveying circuit carry excite in ten degree of zero crossing.In embodiment, include being not more than in about zero crossing Add deduct real-time conveying circuit carry excite in five degree of zero crossing.In embodiment, include in about zero crossing Not more than add deduct real-time conveying circuit carry excite in zero crossing twice.In embodiment, in about zero crossing Place include be not more than add deduct real-time conveying circuit carry excite in zero crossing once.

In embodiment, mobile device is configured for the choosing of the frequency cycle excited carried in real-time conveying circuit Test is excited into application to real-time conveying circuit during selecting time portion.In embodiment, the first mobile device is configured to use It is configured in will test to excite to apply to the insulator and the second mobile device for supporting or keeping real-time conveying circuit Measure the response that the insulator excites to the test.In embodiment, the first mobile device is configured for exciting test Apply to the insulator and the second mobile device for supporting or keeping electric power and be configured for offsetting or offset applied survey Examination excites.In embodiment, at least two mobile device is further configured to be used for cooperative measurement and power Transmission system The property of the associated insulator of system, for example, wherein, mobile device 1005 is positioned on conveying circuit and the of insulator On side, and mobile device 1070 is positioned on conveying circuit and at second and offside of insulator.Figure 13 is illustrated The present embodiment.In embodiment, mobile device be configured for conveying circuit carry excite in about zero crossing The insulator for exciting and applying to supporting or keeping conveying circuit will be tested.In embodiment, mobile device is configured for Test is excited into application to support during the selection time portion for the frequency cycle excited that conveying circuit carries or keeps conveying The insulator of circuit.In embodiment, mobile device is configured for conveying circuit and/or the knot associated with conveying circuit Structure is passively or actively electric checking.In embodiment, mobile device is configured for measuring physical transport line parameter circuit value, this A little physical transport line parameter circuit values include one or more of temperature, cleannes, pressure tension force, and/or sag.In embodiment In, mobile device includes at least one sensor, and the sensor is configured for infringement vegetation of the measurement along conveying circuit Height or length.

Figure 14 illustrates the alternate embodiment of the environment 1000 including system 1002.The system includes at least two movement Equipment, at least two mobile device are shown as Figure 13 the first mobile device 1005 and the second mobile device 1070.This is extremely Few two mobile devices are configured for (i) on the conveying circuit of power transmission system or along its traveling, and this is extremely Few two mobile devices are further configured to be used for (ii) cooperative measurement conveying circuit and/or related to power transmission system The property of the other structures of connection.The system includes mobile device management instrument 1050.The mobile device management instrument is configured to For controlling the conveying circuit carried out by least two mobile device (for example, the pipeline such as high-tension electricity induction system 205 Road 230.1) traversal.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

In embodiment, mobile device management instrument 1050 include traveling control module 1052, cooperating control module 1054, Or communication module 1056.The traveling control module is configured for the pipeline that control is carried out by least two mobile device The traversal on road.The cooperating control module be configured for control by least two mobile device carry out conveying circuit and/ Or the cooperation measurement of the property of the other structures associated with power transmission system.The communication module be configured for and this extremely Few two mobile devices, and/or third party device communication.

It would be recognized by those skilled in the art that in embodiment, the various aspects of mobile device management instrument can use firmly Part, software, and/or firmware implementation are realized.It would be recognized by those skilled in the art that in embodiment, mobile device management The various aspects of instrument can by it is various types of have broad range of electric component (such as hardware, software, firmware and/or its Substantially any combination) Mechatronic Systems individually and/or jointly realize.It would be recognized by those skilled in the art that in embodiment In, the various aspects of mobile device management instrument can use the one or more tools for being programmed to execute or moving equipment The all-purpose computer of body function is realized.It is, for example, possible to use computing device 1058 realizes each of mobile device management instrument Individual aspect.In embodiment, can partially or completely it be realized using general thin computing device 20 described in conjunction with Figure 1 Computing device.In embodiment, it can be come using dedicated computing equipment 100 described in conjunction with Figure 2 partially or completely real Existing computing device.

In embodiment, mobile device management instrument is configured for controlling the traversal of conveying circuit and promoted by this The cooperation measurement that at least two mobile devices are carried out.In embodiment, mobile device management instrument be configured for arrange and The traversal of the conveying circuit for the power transmission system that control is carried out by least two mobile device.In embodiment, movement is set Standby management tool is further configured to for providing the instruction on its property cooperation measurement at least two mobile device. In embodiment, mobile device management instrument is further configured to for controlling the property carried out by least two mobile device The one side of matter cooperation measurement.In embodiment, mobile device management instrument be further configured to be used for export in response to The information data of the property cooperative measured.

Embodiment includes method.After a start operation, the operating process of this method includes initiating the first mobile device in electricity The traveling of first position of the conveying circuit of power induction system up on the conveying circuit.In embodiment, it can use and combine Traveling control module 1052 described by Figure 14 realizes this operation.The operating process includes the second mobile device of initiation and conveyed The traveling to the second place on the conveying circuit on circuit.In embodiment, it can also use described in conjunction with Figure 14 Cooperating control module 1052 realizes this operation.The operating process measures including the use of the first mobile device and the second mobile device The property of the structure of power transmission system.For example, in embodiment, can be with use measurement module 1022, cooperation module 1024, and/or cooperating control module described in conjunction with Figure 14 1054 realize this operation.First mobile device and the second movement Equipment is configured for cooperative measuring the property of the structure.The operating process includes the structural property measured by output indication Data.For example, in embodiment, communication module 1028, and/or communication module described in conjunction with Figure 14 can also be used 1056 realize this operation.The operating process includes end operation.

In embodiment, it is defeated that the operating process includes the electric power that management is carried out by the first mobile device and the second mobile device Send the cooperation measurement of the property of system.In embodiment, the conveying circuit is included in the pre-selection first position on the conveying circuit. In embodiment, first position on the conveying circuit is included as the on the conveying circuit selected by the first mobile device One position.In embodiment, the second place on the conveying circuit is included in the pre-selection second place on the conveying circuit.In reality Apply in example, the second place on the conveying circuit is included as the second on the conveying circuit selected by the second mobile device Put.

Figure 15 illustrates example context 1200.The environment includes power transmission system, and the power transmission system is by with reference to Fig. 3 The conveying circuit 230.1 of described high-tension electricity induction system 205 is shown.The environment also includes mobile device 1205.Should Mobile device includes cabinet 1207, and the cabinet is configured in real-time conveying circuit (such as in two conveying towers (as combined figure The tower 210a and 210B of aerial high-voltage power transmission system described by 3) between conveying circuit 260A) on advance.The movement Equipment includes assistance module 1222, and the assistance module is physically associated with cabinet and is configured for physically assisting two The installation or unloading of conductor cable or circuit between individual conveying tower.

In embodiment, assistance module 1222 includes draught line or pull rope assistance module 1224, the draught line or traction Rope assistance module is configured for disposing draught line or pull rope between two conveying towers.In embodiment, draught line or Pull rope assistance module is configured for disposing draught line or pull rope, the draught line or pull rope are configured for promoting The installation of new conductor cable or circuit between two conveying towers.In embodiment, pull rope includes low quality, high intensity Pull rope, such as Kev draw (Kevlar) or Si Patela (Spectra).In embodiment, draught line or pull rope assist mould Block is configured for installing draught line or pull rope between two conveying towers.

In embodiment, assistance module 1222 include support or spacing fixing device assistance module 1226, the support or It is configured for physically promoting support for new conductor cable or circuit or spacing to consolidate away from fixing device assistance module Determine the installation of device.In embodiment, support or spacing fixing device assistance module is configured for installation and is used for new lead The support of body cable or circuit or spacing fixing device.In embodiment, support or spacing fixing device assistance module is configured Into for promoting to fix dress either at two conveying towers or along the support at the aerial conveying circuit of its traversal or spacing The installation put.In embodiment, assistance module include traction assistance module 1228, the traction assistance module be configured for by Tractive force is applied on mounted new conductor cable or circuit.In embodiment, assistance module includes unloading and assisted Module 1232, the unloading assistance module are configured for physically assisting the conductor cable or circuit between two conveying towers Unloading.In embodiment, assistance module includes deployment assistance module 1234, and the deployment assistance module is configured for physically Assist the unloading of the conductor cable or circuit between two conveying towers.In embodiment, assistance module includes bobbin or the coil of wire 1236, the bobbin or the coil of wire are configured for carrying new conductor cable or circuit.In embodiment, bobbin or the coil of wire by with It is set to for carrying and disposing new conductor cable or circuit.In embodiment, assistance module includes conductor removes module 1238, The conductor removes module is configured for collecting removed conductor cable or circuit.In embodiment, mobile device includes Communication module 1244 that is physically associated with cabinet and being configured for radio communication.

It would be recognized by those skilled in the art that in embodiment, the various aspects of mobile device 1205 (including assistance module 1222) can be realized using hardware, software, and/or firmware implementation.It would be recognized by those skilled in the art that in embodiment In, the various aspects of mobile device can have broad range of electric component (such as hardware, software, firmware by various types of And/or its substantially any combination) Mechatronic Systems individually and/or jointly realize.It would be recognized by those skilled in the art that In embodiment, the various aspects of mobile device can use the one or more tools for being programmed to execute or moving equipment The all-purpose computer of body function is realized.It is, for example, possible to use computing device 1246 realizes the various aspects of mobile device. In embodiment, computing device can be partially or completely realized using general thin computing device 20 described in conjunction with Figure 1. In embodiment, it can partially or completely realize that calculating is set using dedicated computing equipment 100 described in conjunction with Figure 2 It is standby.

Figure 16 illustrates example context 1300.The environment includes power transmission system, and the power transmission system is by with reference to Fig. 3 The real-time conveying circuit 230.1 of described high-tension electricity induction system 205 is shown.The environment includes system 1302.This is System includes mobile device 1205 described in conjunction with Figure 15 and installation assistance controller 1350.Installing assistance controller includes advancing Control module 1352, the traveling control module are configured for controlling by mobile device progress in real-time conveying circuit Advance.Installing assistance controller includes physics assistance control module 1354, and the physics assists control module to be configured for controlling The offer that the physics that system is carried out by mobile device is assisted.Installation assistance controller includes communication module 1356, the communication module quilt It is disposed for wirelessly communicating with mobile device.In embodiment, traveling control module 1352 is configured for same time control The traveling in the real-time conveying circuit of power transmission system that system is carried out by least two mobile devices.

In embodiment, the power transmission system includes high-tension electricity induction system.In embodiment, the power Transmission system System includes electric power distribution system.

It would be recognized by those skilled in the art that in embodiment, installing the various aspects of assistance controller can use firmly Part, software, and/or firmware implementation are realized.It would be recognized by those skilled in the art that in embodiment, control is assisted in installation The various aspects of device can have broad range of electric component (such as hardware, software, firmware and/or its is several by various types of Any combinations) Mechatronic Systems individually and/or jointly realize.It would be recognized by those skilled in the art that in embodiment In, installing the various aspects of assistance controller can use the one or more for being programmed to execute or moving equipment specific The all-purpose computer of function is realized.It is, for example, possible to use computing device 1358 come realize installation assistance controller each side Face.In embodiment, calculating can be partially or completely realized using general thin computing device 20 described in conjunction with Figure 1 Equipment.In embodiment, meter can be partially or completely realized using dedicated computing equipment 100 described in conjunction with Figure 2 Calculate equipment.

All reference papers cited herein all by quote with its all or to its theme otherwise with this not Consistent scope combines herein.

In certain embodiments, " being configured " includes being designed, set, shape, realize, build or being adapted for specifically Purpose, using or at least one of at least one of function.

It will be understood that generally used term is generally intended as " opening in the dependent claims herein and especially Formula " term.For example, term " including (including) " should be interpreted " to include but is not limited to ".For example, term " has (having) " should be interpreted " at least having ".For example, term should be interpreted " at least with " " with (has) ".Example Such as, term " including (includes) " should be interpreted " to include but is not limited to ".It will be further appreciated that if mean Certain amount of introduced claims state, then this intention will be expressly recited in the claim, and in nothing In the presence of such statement, this intention is not presented.For example, in order to help to understand, appended below book may include The use of introducing property phrase (such as " at least one " or " one or more ") carrys out introduce claims state.However, such phrase Use be not construed as implying that claims state will be comprising so by the introducing of indefinite article "one" or " one kind " Any concrete right requirement of the claims state of introducing limits only to the invention stated as one, or even when same When one claim includes introducing property phrase " one or more " or " at least one ", and with indefinite article such as "one" or " one Kind " (for example, " receiver " should be generally interpreted as meaning " at least one receiver ")；This is equally effective in determining hat Word "the" is used for introduce claims state.In addition, even if the claims state of certain amount of introducing is to be expressly stated , but it will be appreciated that the quantity that such statement should be generally interpreted as meaning at least to be stated is (for example, " at least two The bare statement of room " or " multiple rooms " generally means that at least two Room without other modifiers).

Wherein use as " at least one in A, B and C ", " at least one in A, B or C " or " be selected from by A, B, With one [project] of the C groups formed " phrase those examples in, generally such structure be intended to it is Compartmentalization (for example, Any phrase in these phrases will include but is not limited to independent A, independent B, independent C, A and B together, A and C together, B and C together or A, B and C system together, and may further include more than one in A, B or C, such as A₁、A₂With C together, A、B₁、B₂、C₁And C₂Together or B₁And B₂Together).It will be further appreciated that either in specification, claims still In accompanying drawing, substantially any Compartmentalization word and/or phrase that two or more substituting terms are presented all are appreciated that Take into account includes the possibility of any one or the two term in one in these terms, these terms.For example, phrase " A or B " will be understood to comprise " A " or " B " or " A and B " possibility.

Aspect described herein depicts different components included in different other assemblies or connected. It will be appreciated that this described framework is only example, and reach many other of same functionality indeed, it is possible to realize Framework.In conceptual meaning, the arrangement of any component for realizing same functionality is all effectively " associated ", so to make Desired feature is obtained to be achieved.Therefore, it is combined to realize that any two component of exact functionality can herein It is considered as " associated " each other, so that desired feature is achieved, and unrelated with framework or intermediate module.It is logical It with, any two component so associated may be viewed as " being operably connected " each other or " being operatively coupled " realized Desired feature.Any two component that can be so associated may be viewed as coming each other " can operationally couple " Realize desired feature.The particular example that can operationally couple include but is not limited to can physically coordinate or physically Interactive component or can wirelessly interact or wirelessly interactive component.

On appended claims, wherein the operation stated can typically perform in any sequence.Although moreover, It is that various operation streams are presented with sequence, it should be appreciated that can sequentially be performed with other different from illustrated order various Operation, or can simultaneously perform various operations.So the example of alternating sequence can include it is overlapping, staggeredly, interrupt, again Row, increment, preparation, supplement, simultaneously, inversely or other different orders, unless context otherwise indicates.In block diagrams The use of the frame such as " beginning ", " end ", " stopping " being not intended to indicate that any operation in the example shown or the beginning or end of function Limitation.Such flow chart or diagram can be incorporated in performing before or after the illustrated function of the application In other flow charts or diagram of additional function.Further, term picture " in response to ", " correlation " or other past tenses describe Word is generally not intended to exclude such change, unless context otherwise indicates.

Although having disclosed each side and embodiment herein, those skilled in the art will become apparent from other aspects and embodiment. Each face disclosed here and embodiment are for illustrative purposes, and are not intended to be limiting, wherein real scope And spirit is indicated by claims below.

Claims (44)

1. a kind of device for being used to arrange operation of the mobile device in power transmission system, including：

A) acceptor circuit, is configured for receiving instruction one and is configured for electric power from a local transport To the data of at least one physical parameter of the power transmission system of another place；

B) an analysis circuit, it is configured for being based at least partially on received data assessment to the power transmission system A part a potential operational risk；And

C) a planning circuit, it is configured for being based at least partially on assessed potential operational risk arrangement by a shifting The once traversal on a strip transmission line road of the power transmission system that dynamic equipment is carried out,

D) wherein, the planning circuit is configured for one first assessment to a Part I of the power transmission system Potential operational risk carries out excellent on one second assessment potential operational risk of a Part II of the power transmission system First to change, the priorization is based at least partially on the first assessment potential operational risk and the second assessment potential operational risk, and And the once traversal of the Part I for arranging the power transmission system in response to the priorization.

2. device as claimed in claim 1, wherein, the power transmission system includes a high-tension electricity induction system.

3. device as claimed in claim 1, wherein, the power transmission system includes an electric power distribution system.

4. device as claimed in claim 1, wherein, the number of at least one physical parameter of one power transmission system of the instruction According in the operating voltage of a component including the power transmission system, electric current, phase, configuration, age or capacity parameter extremely Few one kind.

5. device as claimed in claim 1, wherein, the number of at least one physical parameter of one power transmission system of the instruction According to electric current, phase, configuration, age, cable dimensions, cable material or the gold on the strip transmission line road including the power transmission system Belong at least one of composition or single or binding conductive state parameter.

6. device as claimed in claim 1, wherein, the number of at least one physical parameter of one power transmission system of the instruction According at least one of the position including the power transmission system or map.

7. device as claimed in claim 1, wherein, the number of at least one physical parameter of one power transmission system of the instruction Allow at least one of margin or peak load according to the safety including the power transmission system and/or failure.

8. device as claimed in claim 1, wherein, the power transmission system is configured for electric power from one including one Aerial power transmission system of the individual local transport to another place.

9. device as claimed in claim 1, wherein, the power transmission system is configured for electric power from one including one Underground electric induction system of the individual local transport to another place.

10. device as claimed in claim 1, wherein, the power transmission system including one be configured for by electric power from Specific power transmission system of one local transport to another place.

11. device as claimed in claim 1, wherein, the acceptor circuit further receives instruction by the power transmission system Experience or it is expected that have the data of at least one event to be subjected.

12. device as claimed in claim 1, wherein, the acceptor circuit, which further receives instruction, influences the power Transmission system A kind of data of current condition of system.

13. device as claimed in claim 1, wherein, the potential operational risk includes a potential inspection requirements.

14. device as claimed in claim 1, wherein, the potential operational risk includes a potential maintenance requirement.

15. device as claimed in claim 1, wherein, the potential operational risk includes a potential maintenance requirement.

16. device as claimed in claim 1, wherein, the analysis circuit is configured for assessing to the power transmission system A part or associated with the part structure a potential operational risk, the assessment, which is based at least partially on, to be connect The data of receipts.

17. device as claimed in claim 1, wherein, the conveying circuit is a real-time conveying circuit.

18. device as claimed in claim 1, wherein, the planning circuit is configured for the potential behaviour in response to being assessed It is arranged in what is carried out on a strip transmission line road by least two mobile devices for being configured for working in coordination action as risk Once travel through.

19. device as claimed in claim 1, wherein, the acceptor circuit is further configured to have for receiving instruction One first of a kind of the first ability for responding assessed potential operational risk can use mobile device and with a kind of response The data of the available mobile device of one second of the second ability for the potential operational risk assessed.

20. device as claimed in claim 1, further comprises：

One mobile device selector circuit, it is configured for moving from one first available mobile device and one second are available A traversal that the conveying circuit arranged can be performed with mobile device is selected among dynamic equipment.

21. device as claimed in claim 1, further comprises：

One traveling controller circuitry, it is configured for the traversal arranged that control is carried out by the mobile device.

22. device as claimed in claim 21, wherein, the traveling controller circuitry is configured for control and set by the movement The route and speed of the standby traversal arranged carried out.

23. device as claimed in claim 21, wherein, the traveling controller circuitry be configured in the mobile device and Another mobile device controls the spacing between them while all just traveling through the power transmission system.

24. device as claimed in claim 21, wherein, the traveling controller circuitry is configured for based on one or more Factor determines a course for needing to be taken by the mobile device, and one or more factors include rising for the mobile device Beginning position, the multiple websites reached by the mobile device along the number amount and type and needing of the barrier of a plurality of route Desired space time.

25. device as claimed in claim 21, wherein, the traveling controller circuitry is configured for based on one or more The position that the mobile device is dispatched on the conveying circuit by the consideration of factor is used to measure or activity, the one or more Factor includes line conditions, phase, voltage or current value, load, source, weather and/or environmental aspect.

26. device as claimed in claim 21, wherein, the traveling controller circuitry is configured for being based on in the electric power The relative needs and the mobile device of inspection and activity at the different piece of induction system can with another mobile device The mobile device is dispatched to these different pieces with the consideration of property.

27. device as claimed in claim 1, further comprise that one is configured for what storage was carried out by the mobile device The computer-readable medium of the traversal arranged of the part of the power transmission system.

28. device as claimed in claim 1, wherein, the mobile device is configured for being somebody's turn to do the power transmission system Part is traveled through and for checking the potential operational risk assessed.

29. device as claimed in claim 1, wherein, the mobile device is configured for being somebody's turn to do the power transmission system Part is traveled through and for being addressed to the potential operational risk assessed.

30. device as claimed in claim 1, wherein, the mobile device is configured for being somebody's turn to do the power transmission system Part is traveled through and initiates an activity for the potential operational risk on being assessed.

31. device as claimed in claim 1, wherein, the mobile device is configured for being somebody's turn to do the power transmission system Part is traveled through and for independently being addressed to the potential operational risk assessed.

32. a kind of system for arranging operation of the mobile device in power transmission system, including：

One conveying circuit management tool, it is configured for assessing a structure associated with a power transmission system A kind of potential inspection and/or maintenance needs and respond accordingly in the potential inspection and/or maintenance needs arrangement by a shifting The once traversal on one strip transmission line road of the power transmission system that dynamic equipment is carried out；

The mobile device, it is configured for traveling through the conveying circuit, and is held in response to the potential inspection and/or maintenance needs One action of row；And

The power transmission system, by electric power from a local transport to another place, and the conveying circuit is provided to the knot The access of structure,

Wherein, the conveying circuit management tool is configured for one to a Part I of the power transmission system One potential inspection and/or maintenance needs on a Part II of the power transmission system second potential inspection and/ Or maintenance needs are prioritized, the priorization be based at least partially on first potential inspection and/or maintenance needs and this Two potential inspections and/or maintenance needs, and for arranging the Part I of the power transmission system in response to the priorization Once traversal.

33. system as claimed in claim 32, wherein, the conveying circuit management tool be configured for correspondingly arranging and The once traversal on one strip transmission line road of the system that scheduling is carried out by a mobile device.

34. system as claimed in claim 32, wherein, the mobile device is configured for just advancing on the conveying circuit While travel through another strip transmission line road.

35. system as claimed in claim 32, wherein, the mobile device is configured for measuring the multiple of the conveying circuit Physical parameter, these physical parameters include one or more of temperature, cleannes, pressure tension force, and/or sag.

36. system as claimed in claim 32, wherein, the mobile device is configured for the conveying circuit including one The vegetation gap camera or radar that are addressed.

37. system as claimed in claim 32, wherein, the mobile device is configured for automatically responding to the potential inspection And/or maintenance needs.

38. a kind of method for arranging operation of the mobile device in power transmission system, including：

A) instruction one is received to be configured for power transmission system of the electric power from a local transport to another place At least one physical parameter data；

B) it is based at least partially on a potential operation wind of the received data assessment to a part for the power transmission system Danger, wherein, it is described assess include to first potential operational risk of a Part I of the power transmission system on One the second potential operational risk of one Part II of the power transmission system is prioritized, and the priorization is at least partly Ground is based on first potential operational risk and second potential operational risk；And

C) in response to the potential operational risk assessed, arrange by a mobile device carry out on a strip transmission line road at least Once traversal in a part, the conveying circuit are provided to the access of the part of the power transmission system,

The mobile device is configured for traveling through a strip transmission line road of a power transmission system and for holding Row is in response to an action of the potential operational risk assessed.

39. method as claimed in claim 38, further comprises：

Reception instruction is at least one to be had influence on the power transmission system or it is expected that has the data of influential event.

40. method as claimed in claim 38, wherein, once traversal includes for the arrangement：

Potential operational risk is assessed on the power Transmission system to one first of a Part I of the power transmission system System a Part II second assessment potential operational risk be prioritized, the priorization be based at least partially on this first Potential operational risk and the second assessment potential operational risk are assessed, and being somebody's turn to do for the conveying circuit is arranged in response to the priorization Traversal at least a portion.

41. method as claimed in claim 38, further comprises：

Control the traversal arranged carried out by the mobile device.

42. method as claimed in claim 38, further comprises：

The data for the traversal arranged that storage instruction is carried out by the mobile device in a computer-readable medium.

43. method as claimed in claim 38, further comprises：

The information data for the traversal arranged that output indication is carried out by the mobile device.

44. method as claimed in claim 38, further comprises：

The traversal arranged carried out from the mobile device is based at least partially on into the mankind, computer or system at least One provides a notice.