AU2022403593A9 - Operation sheet processing method and device, storage medium, and electronic device - Google Patents

Abstract

An operation sheet processing method and device, a storage medium, and an electronic device. The method comprises: obtaining operation sheet information from a server, the operation sheet information being information determined by the server on the basis of a selection instruction sent by a target application APP; determining a target operation mode from a plurality of pre-configured operation modes on the basis of the operation sheet information; when it is determined that a target operation condition is currently met, generating a target operation sheet according to the target operation mode; and sending the target operation sheet to a target key corresponding to the target operation sheet, the target key having the capability of automatically receiving the sheet and executing the operation sheet. This solution solves the problems in the prior art of a high maintenance scheduling error rate and a long maintenance time.

Description

Operation Sheet Processing Method and Device, Storage Medium, and

Electronic Device

Technical Field

Embodiments of the present disclosure relate to the field of vehicle maintenance in a depot, and in particular to a method and apparatus for processing an operation ticket, a storage medium, and an electronic device.

Background

With rapid development of vehicle technologies and transportation capacity, maintenance in a depot has also received widespread concern from the society at present, and the problem of traffic safety has attracted growing attention.

According to a conventional method for processing a maintenance operation ticket for a depot, maintenance personnel print a maintenance work order, and then contact a maintenance dispatcher to cut off or turn on power in a maintenance area according to power on-off requirements of the maintenance work order. After receiving a maintenance request, the maintenance dispatcher simulates issuance of an operation ticket in an anti mis-operation system, and then transmits the operation ticket to a computer key for operation. After the operation is completed, the maintenance dispatcher shall contact a local operator to receive the operation ticket, and then the maintenance personnel start working in the maintenance area.

Under the condition that the maintenance personnel print the maintenance work order, and then contact the maintenance dispatcher to cut off or turn on power in the maintenance area according to the power on-off requirements of the maintenance work order, the maintenance work order is not uniformly and electronically managed in this process, and the operation that the maintenance personnel apply to the maintenance dispatcher for power on-off in a certain area is not associated with the pre-printed maintenance work order, which possibly causes the maintenance dispatcher to cut off power in a depot entrance track B while the maintenance will actually happen in a depot entrance track A.

In addition, after receiving the maintenance request, the maintenance dispatcher simulates issuance of the operation ticket in the anti mis-operation system, and then transmits the operation ticket to the computer key for operation, after the operation is completed, the maintenance dispatcher needs to contact the local operator to receive the operation ticket, and then the maintenance personnel start working in the maintenance area. In this process, issuance of the operation ticket needs to be simulated in order to perform power on-off processes by the maintenance dispatcher, but the simulation of the issuance of the operation ticket is not smart enough, and intelligent and automatic operation ticket generation, transmission and reception cannot be achieved. In addition, the operation ticket reception is performed manually by the maintenance personnel, and therefore an operation ticket intended for maintenance personnel in a maintenance area may be mistakenly received by maintenance personnel in another maintenance area, and such incorrect information reception may prolong the required maintenance time.

In view of the problems of a high error rate during maintenance dispatching and long maintenance time in the related art, no effective solutions have been proposed yet.

Summary

Embodiments of the present disclosure provide a method and apparatus for processing an operation ticket, a storage medium, and an electronic device, which may at least solve the problem of a high error rate during maintenance dispatching and long maintenance time in the related art.

According to an embodiment of the present disclosure, a method for processing an operation ticket is provided. The method includes: obtaining operation ticket information from a server, wherein the operation ticket information is information determined by the server based on a selection instruction sent from a target application (APP); determining a target operation mode from a plurality of pre-configured operation modes based on the operation ticket information; generating a target operation ticket according to the target operation mode under a condition of determining that a target operation condition is currently satisfied; and sending the target operation ticket to a target key corresponding to the target operation ticket, wherein the target key has a capacity of automatically receiving and executing operation tickets.

According to another embodiment of the present disclosure, an apparatus for processing an operation ticket is provided. The apparatus includes: an obtaining module, configured to obtain operation ticket information from a server, wherein the operation ticket information is information determined by the server based on a selection instruction sent by a target APP; a determination module, configured to determine a target operation mode from a plurality of pre-configured operation modes based on the operation ticket information; a generation module, configured to generate a target operation ticket according to the target operation mode under a condition of determining that a target operation condition is currently satisfied; and a sending module, configured to send the target operation ticket to a target key corresponding to the target operation ticket, wherein the target key has a capacity of automatically receiving and executing operation tickets.

According to another embodiment of the present disclosure, a computer-readable storage medium is further provided. The computer-readable storage medium stores a computer program, where the computer program executes operations of any one of the above method embodiments when running.

According to another embodiment of the present disclosure, an electronic device is further provided. The electronic device includes a memory and a processor, where the memory stores a computer program, and the processor implements operations of any one of the above method embodiments when running the computer program.

By means of the present disclosure, the operation ticket information may be determined based on the selection instruction sent by the APP, and further, the operation ticket is automatically generated based on the operation ticket information. In addition, after the operation ticket is generated, the operation ticket may further be sent to a target key, and the target key automatically receives the operation ticket. The whole operation process achieves electronic management of operation work orders, and may achieve functions of automatic operation ticket generation, automatic operation ticket transmission and automatic operation ticket reception according to actual requirements, thereby avoiding mistaken transmission or reception of the operation ticket during transmission, ensuring successful execution of operation, further shortening an operation cycle to a certain extent, and effectively solving the problems of a high error rate during maintenance dispatching and long maintenance time in the related art.

Brief Description of the Drawings

Fig. 1 is a structural block diagram of hardware of a mobile terminal for implementing a method for processing an operation ticket according to an embodiment of the present disclosure;

Fig. 2 is a flow chart of a method for processing an operation ticket according to an embodiment of the present disclosure;

Fig. 3 is a diagram of the overall architecture of a system according to an embodiment of the present disclosure;

Fig. 4 is a flow chart of automatic operation ticket generation, automatic operation ticket transmission and automatic operation ticket reception during a maintenance process in a depot according to an embodiment of the present disclosure;

Fig. 5 is a flow chart I of operation ticket generation according to an embodiment of the present disclosure;

Figure 6 is a flow chartII of operation ticket generation according to an embodiment of the present disclosure;

Fig. 7 is a flow chart III of operation ticket generation according to an embodiment of the present disclosure; and

Fig. 8 is a structural block diagram of an apparatus for processing an operation ticket according to an embodiment of the present disclosure.

Detailed Description

Embodiments of the present disclosure will be described in details below with reference to the accompanying drawings in conjunction with embodiments.

It should be noted that terms "first", "second", etc., in the description and claims of the present disclosure and in the above accompanying drawings, are set to distinguish similar objects and not necessarily to describe a particular order or sequential order.

With continuous development of transportation, the transportation becomes increasingly convenient. With development of science and technology, vehicle technologies keep advancing. Maintenance of transportation infrastructure has gradually become routine and standardized. In a process of daily maintenance, it is necessary to control power on-off operations of a depot entrance track or position according to maintenance conditions. The power on-off operations include opening and closing of a disconnector and connecting and removing of a ground wire (temporary grounding or visual grounding apparatus). However, a maintenance process in a depot application in the related art is not associated with the power on-off, each process is performed independently, and an implementation mode of the process is relatively outdated. How to associate these processes and how to manage the processes in a closed-loop mode are problems urgently to be solved. In order to avoid potential safety hazards caused by an outdated and tedious operation ticket process and avoid an influence on maintenance in a depot, the embodiments of the present disclosure provide a system that can implement automatic operation ticket generation, automatic operation ticket transmission and automatic operation ticket reception during maintenance operation in a depot. The system integrates maintenance work orders, operation tickets, keys, anti mis-operation judgment, wireless ticket transmission, and automatic ticket reception. The system may achieve closed-loop management of the entire process of the depot. The system may achieve automatic transmission of the operation tickets, and may achieve automatic reception of the operation tickets through the keys, thereby greatly improving production and operation efficiency. The present disclosure will be described below with reference to embodiments:

The method embodiments provided by the embodiments of the present disclosure may be executed in a mobile terminal, a computer terminal or a similar computing apparatus. With a method running on a mobile terminal as an example, Fig. 1 is a structural block diagram of hardware of a mobile terminal for implementing a method for processing an operation ticket according to an embodiment of the present disclosure. As shown in Fig. 1, the mobile terminal may include one or more (only one is shown in Fig. 1) processors 102 (the processor 102 may include, but not limited to, a processing device, for example, a Micro Controller Unit (MCU) or a Field-Programmable Gate Array (FPGA)) and a memory 104 for storing data. The mobile terminal may further include a transmission device 106 having a communication function and an input/output device 108. Those having ordinary skill in the art will appreciate that the structure shown in Fig. 1 is merely schematic and does not pose a limitation on the structure of the above mobile terminal. For example, the mobile terminal may further include more or fewer components than that shown in Fig. 1, or have a different configuration from that shown in Fig. 1.

The memory 104 may be configured to store a computer program such as a software program and module of application software, for example, a computer program corresponding to the method for processing am operation ticket in the embodiment of the present disclosure, and the processor 102 executes various functional applications and data processing by running the computer program stored in the memory 104, that is, the above method is achieved. The memory 104 may include a high-speed random access memory, and may further include a non-volatile memory, for example, one or more magnetic storage apparatuses, flash memories, or other non-volatile solid-state memories. In some embodiments, the memory 104 may further include a memory remotely arranged relative to the processor 102, where the remote memory may be connected to the mobile terminal by means of a network. Examples of the network described above include, but not limited to, the Internet, an enterprise intranet, a local area network, a mobile communication network, and combinations thereof.

The transmission device 106 is configured to receive or send data by means of one network. Specific examples of the network described above may include a wireless network provided by a communications provider of the mobile terminal. In an example, the transmission device 106 includes a Network Interface Controller (NIC), which may be connected with other network apparatuses by means of a base station so as to communicate with the Internet. In an example, the transmission device 106 may be a Radio Frequency (RF) module, which is configured to communicate wirelessly with the Internet.

An embodiment provides a method for processing an operation ticket. Fig. 2 is a flow chart of the method for processing an operation ticket according to an embodiment of the present disclosure. As shown in Fig. 2, the method includes the following operations S202 to S208.

At S202, operation ticket information is obtained from a server, wherein the operation ticket information is information determined by the server based on a selection instruction sent from a target application (APP).

At S204, a target operation mode is determined from a plurality of pre-configured operation modes based on the operation ticket information.

At S206, a target operation ticket is generated according to the target operation mode under a condition of determining that a target operation condition is currently satisfied.

At S208, the target operation ticket is sent to a target key corresponding to the target operation ticket, wherein the target key has a capacity of automatically receiving and executing operation tickets.

The above operations may be executed by an operation ticket module, which may be located in, for example, a mobile terminal, a computer terminal, etc. The above operations may alternatively be implemented by a controller, or a processing device or processing unit having a similar processing capacity.

In the above embodiment, the target APP may receive a maintenance work order from the server (e.g., a cloud server), and may display the content in the maintenance work order, wherein the content in the maintenance work order may include: a depot entrance track, a depot entrance position number, a shift, etc. Moreover, other information, such as operation selection information such as power on/off and ground wire connecting/removing, may further be displayed in the target APP, so that an operator (e.g., a work leader) may select related information in the target APP after logging into the target APP, so as to generate the operation ticket information.

In addition, the above target operation mode is actually selected from a plurality of predetermined operation modes. That is, the corresponding operation mode may be selected according to the operation ticket information. The plurality of predetermined operation modes at least include the following modes: opening a disconnector; closing a disconnector; opening the disconnector and then connecting a set of ground wires; removing a set of ground wires and then closing the disconnector; opening the disconnector and then connecting two sets of ground wires; and removing two set of ground wires and then closing a disconnector. The operations in each operation mode may be predefined.

By means of the above example, the operation ticket information may be determined based on the selection instruction sent by the APP, and further, the operation ticket is automatically generated based on the operation ticket information. In addition, after the operation ticket is generated, the operation ticket may further be sent to a target key, and the target key automatically receives the operation ticket. The whole operation process achieves electronic management of operation work orders, and may achieve functions of automatic operation ticket generation, automatic operation ticket transmission and automatic operation ticket reception according to actual requirements, thereby avoiding mistaken transmission or reception of the operation ticket during transmission, ensuring successful execution of operation, further shortening an operation cycle to a certain extent, and effectively solving the problems of a high error rate during maintenance dispatching and long maintenance time in the related art.

In an exemplary embodiment, before the target operation ticket is generated according to the target operation mode under the condition of determining that the target operation condition is currently satisfied, the method may further include the following operation: whether the target operation condition is currently satisfied is determined by at least executing following judgment operations: a unique operation authority judgment, an anti mis-operation judgment, a judgment on whether a channel is normal, and a judgment on whether the target key already has an operation ticket. In the exemplary embodiment, it is determined that the target operation condition is currently satisfied under a condition of determining that a unique operation authority is satisfied, there is no false trigger, the channel is in a normal state, and the target key has no other operation tickets. In this embodiment, the whole operation ticket generation process needs a unique operation authority (whether a mobile terminal or computer terminal having a decision-making capacity has a unique operation authority) judgment, an anti mis-operation judgment (whether power on/off operation is performed in a correct channel, or whether a ground wire connecting/removing operation is correct), a judgment on whether a channel is normal (whether a channel for which the operation ticket is transmitted is normal), a judgment on whether the target key already has an operation ticket (whether a mobile terminal or computer terminal receiving the operation ticket is in an idle state). It is determined that the target operation condition is currently satisfied under the condition of determining that the unique operation authority is satisfied, there is no false trigger, the channel is in a normal state, and the target key has no other operation tickets, and the target operation ticket may be generated according to the above target mode when it is determined that the target operation condition is currently satisfied.

In an exemplary embodiment, the method may further include at least one of the following operations. Under a condition of generating the target operation ticket according to the target operation mode, a first notification message set to indicate successful generation of the target operation ticket is sent to the server, so as to instruct the server to notify the target APP of successful generation of the target operation ticket. Under a condition of determining that the target operation condition is not currently satisfied, a second notification message set to indicate unsuccessful generation of the target operation ticket is sent to the server, so as to instruct the server to notify the target APP of unsuccessful generation of the target operation ticket and a failure reason, wherein the second notification message carries an indication message set to indicate the failure reason. In this embodiment, after the target operation ticket is successfully generated according to the above target operation mode, the first notification message set to indicate successful generation of the target operation ticket may be sent to the server, so as to instruct the server to notify the target APP of successful generation of the target operation ticket, such that a user of the target APP may timely know successful generation of the target operation ticket. Moreover, under the condition of determining that the target operation ticket may not be normally generated, for example, under the condition that the target operation condition is not currently satisfied, it is also needed to notify the server. In such a case, the second notification message set to indicate unsuccessful generation of the target operation ticket is sent to the above server. The second notification message may also carry a reason of unsuccessful generation of the target operation ticket, so as to instruct the above server to notify the target APP of unsuccessful generation of the target operation ticket and a failure reason. For example, when the target operation ticket is unsuccessfully generated since the current target key is processing other operation tickets, the failure reason may be popped up as follows in the above target APP: the target key has other operation tickets under processing, and the operation ticket is unsuccessfully generated, such that a user of the target APP may timely know the reason of unsuccessful generation of the target operation ticket.

In an exemplary embodiment, the method may further include the following operations: configuration attributes of a target device on which a target operation is to be executed are determined, wherein the target operation is determined based on the target operation mode; a first operation step required to execute the target operation on the target device is determined according to the configuration attributes; and the target operation ticket is generated based on the first operation step. In this embodiment, configuration attributes (i.e., information related cables and the like) about the target device to be operated (e.g., a cable to be serviced) are pre-stored in the operation ticket module, such that operation steps for the device may be determined based on the configuration attributes of the device before the above operation ticket is generated. The configuration attributes of the devices are also different for different devices, and corresponding relations between the configuration attributes and the operation steps of the devices may be pre-configured.

In an exemplary embodiment, the method may further include the following operations: a device type of a target device on which a target operation is to be executed is determined, wherein the target operation is determined based on the target operation mode; a second operation step required to execute the target operation on the target device is determined according to the device type; and the target operation ticket is generated based on the second operation step. In this embodiment, type information of the target device to be operated is pre-stored in the operation ticket module, such that operation steps for the device may be determined based on the type information of the device before the above operation ticket is generated. Corresponding relations between the device types and the operation steps may be pre-configured.

In an exemplary embodiment, the method may further include the following operations: an operation type of a target device on which a target operation is to be executed is determined, wherein the target operation is determined based on the target operation mode; a third operation step required to execute the target operation on the target device is determined according to the operation type; and the target operation ticket is generated based on the third operation step. In this embodiment, the operation type of the target device to be operated is pre-stored in the operation ticket module, such that operation steps for the device may be determined based on the operation type of the device before the above operation ticket is generated. Corresponding relations between the operation types of the device and the operation steps may be pre-configured.

In an exemplary embodiment, after the target operation ticket is sent to the target key corresponding to the target operation ticket, the method may further include the following operations. Before executing each operation step included in the target operation ticket, the target key sends an inquiry message to the server to inquire whether to allow to execute the operation step currently to be executed; the target key executes the operation step to be executed under a condition that the target key receives from the server a response allowing to execute the operation step; and the target key terminates execution of the operation step to be executed and subsequent operation steps under a condition that the target key receives from the server a response not allowing to execute the operation step. In this embodiment, the target key determines whether to allow to execute the operation before executing each operation, and a specific determination mode may include: whether to execute a current operation may be confirmed with the server; alternatively, under the condition that the target key has a logical judgment capacity, the judgment operation may be executed by the target key (for example, the target key obtains a state of each device and each line in the system from the server in advance, and further determines whether to allow to execute the current operation based on the obtained information). By implementing a logical judgment, safety and reliability of operation execution may be ensured.

Apparently, the embodiments described above are only a part rather than all embodiments of the present disclosure.

The present disclosure is described in detail below with reference to exemplary embodiments.

Fig. 3 is a diagram of the overall architecture of a system according to an embodiment of the present disclosure. The solution can achieve operation ticket generation and operation ticket transmission in one key during a maintenance process in a depot, and is implemented by a method of unified analysis and unified management by a Depot Control Center (DCC) by means of a video server, a communication machine, a cloud server, a smart phone, a disconnector, a visual grounding apparatus, a mobile ground wire, a computer key, various locksets, etc. Connection relations between the modules may specifically refer to Fig. 3.

Fig. 4 is a flow chart of automatic operation ticket generation, automatic operation ticket transmission and automatic operation ticket reception during a maintenance process in a depot according to an embodiment of the present disclosure. The flow includes the following steps S402 to S420.

At S402, a maintenance module generates a maintenance work order to a cloud server (which corresponds to @ in Fig. 4).

At S404, the cloud server transmits the maintenance work order to a smart phone APP (which corresponds to the above target APP) (which corresponds to @ in Fig. 4). At S406, a work leader logs into the smart phone APP to view the content (the content in the maintenance work order includes: a depot entrance track, a depot entrance position number, a shift, etc.) of the maintenance work order. Moreover, the work leader selects, at the smart phone APP, power on/off operation and ground wire connecting/removing operation according to power on-off requirements of the maintenance work order, and clicks on a one-key generation button (which corresponds to @ in Fig. 4).

At S408, the cloud server receives a need to generate an operation ticket and notifies an operation ticket module (which corresponds to @ in Fig. 4). At S410, the operation ticket module begins one-key operation ticket generation: the operation ticket module completes information collection (depot entrance track+position number, etc.), and moreover, generates an operation ticket (a unique operation authority judgment, an anti mis-operation judgment, a judgment on whether a channel is normal, and a judgment on whether the target key already has an operation ticket are performed in the whole process of generating the operation ticket) according to the operation mode (one of operation modes including but not limited to: opening a disconnector, closing a disconnector, opening the disconnector and then connecting a set of ground wires, removing a set of ground wires and then closing the disconnector, opening the disconnector and then connecting two sets of ground wires, and removing two set of ground wires and then closing a disconnector) selected by the work leader on the smart phone APP, and sends a result of generating the operation ticket to the cloud server (which corresponds to @ in Fig. 4). At S412, when the operation ticket is successfully generated, the cloud server transmits information of one-key successful generation of the operation ticket to the smart phone APP. When the operation ticket is unsuccessfully generated, the cloud server transmits, to the smart phone APP, information of one-key unsuccessful generation of the operation ticket and a failure reason, for example, the reason of one-key unsuccessful generation of the operation ticket (which corresponds to @ in Fig. 4) may include:

1. information of a depot entrance track, a depot entrance position, and a shift (a corresponding key) is incomplete;

2, there is no power on/off operation and no wire connecting/removing operation;

3. a state of an operation device is different from a current state;

4. a depot entrance track and/or a position are/is not found;

5. incorrect mode selection: for example, closing a disconnector and connecting a ground wire are selected at the same time, or opening a disconnector and removing a ground wire are selected at the same time;

6. a unique operation authority is violated;

7. anti mis-operation judgement is not passed, the reason being that a state of a certain switch is not correct;

8. there are no available ground wires (when the ground wire is mobilized);

9, a corresponding shift does not have a ticket transmission channel;

10. the ticket transmission channel is not opened;

11. a current depot entrance track has a vehicle departure or outage plan, and thus the operation ticket cannot be issued; and

12. a key of the corresponding shift has already received an operation ticket and therefore cannot receive another operation ticket.

At S414, the operation ticket module sends the operation ticket successfully generated to a network controller (which corresponds to ( ) in Fig. 4).

At S416, the network controller determines the corresponding key (the above target key) according to shift information of the operation ticket and transmits the operation ticket to the corresponding key, and moreover, the key (the above target key) automatically receives the operation ticket, and the operation ticket is successfully received (which corresponds to @ in Fig. 4).

At S418, the key operates an automatic or manual disconnector, and in an operation process, the key performs real-time logic judgment and inhibits the operation if abnormal displacement occurs in the operation process (corresponding to © in Fig. 4).

At S420, the key operates a visual grounding apparatus or a mobile ground wire, and in an operation process, the key performs a real-time logic judgment and inhibits the operation if abnormal displacement occurs in the operation process (which corresponds to @ in Fig. 4).

In an embodiment of the present disclosure, for configuration attributes of devices to be operated, the computer key supports two modes of the common ground wire, and supports the function of mobile ground wire and immobile ground wire mode. The two modes of the common ground wire mainly includes a first mode of first verifying electricity and a second mode of first taking the ground wire, which are two modes commonly used during a maintenance process in a vehicle depot. Moreover, the computer key supports the mobile ground wire (a certain set of ground wires may be selected) mode, and the immobile ground wire (which is directly bounded to the nearest ground wire) mode, and ensures safety of local maintenance personnel through a connecting and grounding process. How to generate an operation ticket based on configuration attributes is described below with reference to Fig. 5.

At S502, before generating an operation ticket, an operation ticket module needs to obtain configuration attributes (an immobile ground wire or a mobile ground wire) of a device to be operated. In the mobile ground wire mode, any ground wire that is not occupied may be taken from a plurality of sets of ground wires. In the immobile ground wire mode, one ground wire fixedly corresponds to one ground point, an immobile ground wire is automatically associated when the operation ticket is automatically generated, and only the immobile ground wire can be taken (which corresponds to () in Fig. 5).

At S504, the operation ticket module generates the operation ticket according to the configuration attributes and transmits the operation ticket to a computer key (which corresponds to in Fig. 5).

At S506, the computer key supports two modes of a common ground wire, and the computer key executes each operation step in the operation ticket (which corresponds to @ in Fig. 5), including:

1. first taking ground wire and then detecting electricity (electricity detecting is after ground wire taking): a ground wire connecting flow includes ground wire taking electricity detecting ground wire connecting electroscope removing; and a ground wire removing flow includes ground wire removing-ground wire returning; and

2. first detecting electricity and then taking ground wire (electricity detecting is before ground wire taking): a ground wire connecting flow includes electricity detecting ground wire taking ground wire connecting electroscope removing; and a ground wire removing flow includes ground wire removing-ground wire returning.

In the embodiment of the present disclosure, for type information of the device to be operated, the computer key supports automatic operation ticket generation for both a common ground wire and a visual grounding apparatus. How to generate an operation ticket based on a device type is described below with reference to Fig. 6.

At S602, an operation ticket module determines a device type (a common ground wire or a visual grounding apparatus), and generates an operation ticket based on the device type (which corresponds to @ in Fig. 6).

At S604, a computer key supports the automatic operation ticket generation for both a common ground wire and a visual grounding apparatus, and the computer key executes operation steps automatically generated according to the device type (which corresponds to @ in Fig. 6), which mainly includes two operation modes as follows.

Mode 1: if the device type is the common ground wire, operations are carried out according to one of the two modes (1.first taking ground wire and then detecting electricity (electricity detecting is after ground wire taking); and 2. first detecting electricity and then taking ground wire (electricity detecting is before ground wire taking)) described in Fig. 5 (Fig. 6 only illustratively lists operations to be performed in a mode of "first taking ground wire and then detecting electricity", and operations to be performed in a mode of "first detecting electricity and then taking ground wire" may also be used in a practical application).

Mode 2: if the device type is the visual grounding apparatus, operation steps are generated as follows.

Grounding operation: cabinet door opening-change from remote control to local control-turning on a telecontrol mode through the key-automatic electricity detecting-grounding button pressing-grounding completion-change from local control to remote control.

Ground wire removing operation: cabinet door opening-change from remote control to local control-turning on a telecontrol mode through the key-switch-off button pressing-successful switch-off-change from local control to remote control.

In the embodiment of the present disclosure, for the operation type of the device to be operated, the computer key supports local (which includes manual operation and automatic operation) and remote control process for a disconnector and a visual grounding apparatus. How to generate an operation ticket based on an operation type of a device is described below with reference to Fig. 7.

At S702, an operation ticket module obtains configuration attributes (whether local control or remote control) (which corresponds to @ in Fig. 7).

At S704, the operation ticket module generates an operation ticket according to the configuration attributes (Mode 1 or Mode 2 described below) and transmits the operation ticket to a computer key (which corresponds to @ in Fig. 7).

At S706, the computer key supports two operation modes for a disconnector and a visual grounding apparatus, and the computer key executes each operation step in the operation ticket (which corresponds to @ in Fig. 7). Mode 1: local control of a disconnector or a visual grounding apparatus, and opening a mechanical lock for a manual local control.

Mode 2: remote control of a disconnector or a visual grounding apparatus, pressing "remote control" on a key, and remotely controlling remote control on a system.

By means of the above steps, the present disclosure changes a manual and inefficient operation mode in which maintenance and operation ticket are separated at the present stage, improves work efficiency of maintenance personnel and ensures safety of the maintenance personnel by means of one-key operation ticket generation. In addition, the embodiments of the present disclosure further achieve the following objectives: electronic management of maintenance work orders is achieved, and production efficiency is improved; functions of automatic operation ticket generation, automatic operation ticket transmission and automatic operation ticket reception according to power on-off requirements of the maintenance work orders are achieved, the maintenance personnel applies to a maintenance dispatcher for power on-off in a certain area, and the power on-off is associated with the maintenance work order, so as to avoid the situation that during maintenance in a depot entrance track A, the maintenance dispatcher cuts off power in a depot entrance track B; closed-loop management functions including reception of maintenance work orders, display of the maintenance work orders on the APP, selection of areas requiring power on-off on the APP to automatically generate an operation ticket, automatic ticket reception according to the computer key bound with a shift, and feeding back local control state are achieved, and the situation of incorrectly receiving the operation tickets by the shift can be avoided; the automatically generated operation ticket supports two modes of a common ground wire (first detecting electricity, and first taking ground wire), supports a mobile ground wire mode and an immobile ground wire mode, supports a common ground wire and a visual grounding apparatus, and supports local and remote control, and therefore all possible local use modes can be supported, which is convenient and reliable.

From the description of the above embodiments, it will be apparent to those having ordinary skill in the art that the methods according to the above examples can be implemented by means of software plus a necessary general-purpose hardware platform, and of course can also be implemented by means of hardware, but in many cases the former is a better embodiment. With such understanding, the technical solution of the present disclosure, in essence or from the view of part contributing to the prior art, can be embodied in the form of a software product, where the computer software product is stored in a memory medium (such as read only memory (ROM)/random access memory (RAM), a magnetic disk and an optical disk) and includes a plurality of instructions configured to make a terminal apparatus (which can be a mobile phone, a computer, a server, a network apparatus, etc.) conduct the method in each of the embodiments of the present disclosure.

An embodiment further provides an apparatus for processing an operation ticket. The apparatus is configured to implement the above embodiments and the exemplary embodiments, and the content that has been described will not be repeated. The term "module", as used below, can achieve a combination of software and/or hardware having predetermined functions. While the apparatus described in the following embodiments is preferably implemented in software, implementation by hardware, or a combination of software and hardware is also possible and conceivable.

Fig. 8 is a structural block diagram of an apparatus for processing an operation ticket according to an embodiment of the present disclosure. As shown in Fig. 8, the apparatus includes:

an obtaining module 802, configured to obtain operation ticket information from a server, wherein the operation ticket information is information determined by the server based on a selection instruction sent by a target APP;

a determination module 804, configured to determine a target operation mode from a plurality of pre-configured operation modes based on the operation ticket information;

a generation module 806, configured to generate a target operation ticket according to the target operation mode under a condition of determining that a target operation condition is currently satisfied; and

a sending module 808, configured to send the target operation ticket to a target key corresponding to the target operation ticket, wherein the target key has a capacity of automatically receiving and executing operation tickets.

In an exemplary embodiment, the determination module 804 includes: a determination unit, configured to determine whether the target operation condition is currently satisfied by at least executing following judgment operations: a unique operation authority judgment, an anti mis-operation judgment, a judgment on whether a channel is normal, and a judgment on whether the target key already has an operation ticket, where it is determined that the target operation condition is currently satisfied under a condition of determining that a unique operation authority is satisfied, there is no false trigger, the channel is in a normal state, and the target key has no other operation tickets.

In an exemplary embodiment, the above apparatus may further include at least one of the following modules: a first notification module, configured to send a first notification message set to indicate successful generation of the target operation ticket to the server, so as to instruct the server to notify the target APP of successful generation of the target operation ticket under a condition of generating the target operation ticket according to the target operation mode; and a second notification module, configured to send a second notification message set to indicate unsuccessful generation of the target operation ticket to the server, so as to instruct the server to notify the target APP of unsuccessful generation of the target operation ticket and a failure reason under a condition of determining that the target operation condition is not currently satisfied, wherein the second notification message carries an indication message set to indicate the failure reason.

In an exemplary embodiment, the generation module 806 includes: a first determination unit, configured to determine configuration attributes of a target device on which a target operation is to be executed, wherein the target operation is determined based on the target operation mode; a second determination unit, configured to determine, according to the configuration attributes, a first operation step required to execute the target operation on the target device; and a first generation unit, configured to generate the target operation ticket based on the first operation step.

In an exemplary embodiment, the generation module 806 includes: a third determination unit, configured to determine a device type of a target device on which a target operation is to be executed, wherein the target operation is determined based on the target operation mode; a fourth determination unit, configured to determine, according to the device type, a second operation step required to execute the target operation on the target device; and a second generation unit, configured to generate the target operation ticket based on the second operation step.

In an exemplary embodiment, the generation module 806 includes: a fifth determination unit, configured to determine an operation type of a target device on which a target operation is to be executed, wherein the target operation is determined based on the target operation mode; a sixth determination unit, configured to determine, according to the operation type, a third operation step required to execute the target operation on the target device; and a third generation unit, configured to generate the target operation ticket based on the third operation step.

In an exemplary embodiment, the above target key includes the following modules: an inquiry module, configured to send an inquiry message to the server before the target key executes each operation step included in the target operation ticket to inquire whether to allow to execute the operation step currently to be executed; a reception module, configured to execute the operation step to be executed under a condition that the target key receives from the server a response allowing to execute the operation step; and a processing module, configured to terminate execution of the operation step to be executed and subsequent operation steps under a condition that the target key receives from the server a response not allowing to execute the operation step.

It should be noted that the various modules described above can be implemented in software or hardware, and implementation in hardware can be implemented in a way as follows but is not limited the way: the modules mentioned above are located in the same processor, or the modules mentioned above are separately located in different processors in any combination form.

An embodiment of the present disclosure further provides a computer-readable storage medium. The computer-readable storage medium stores a computer program, where the computer program is configured to execute the operations of any one of the above method embodiments when running.

In an exemplary embodiment, the above computer-readable storage medium mentioned above may include, but is not limited to, a universal serial bus flash disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic disk, or an optical disk, and various media that may store the computer program.

An embodiment of the present disclosure further provides an electronic device. The electronic device includes a memory and a processor, where the memory stores a computer program, and the processor is configured to run the computer program to execute operations of any one of the above method embodiments.

In an exemplary embodiment, the above electronic device may further include a transmission device and an input/output device, where the transmission device is connected to the above processor, and the input/output device is connected to the above processor.

For specific instances in this embodiment, reference can be made to the instances described in the above embodiments and exemplary embodiments, which are not repeated in detail herein.

The work flow based on central information management and control provided by the present disclosure ensures safety of each operation step, achieves intelligent and paperless work flow, and significantly improves efficiency of local control and maintenance.

Apparently, those having ordinary skill in the art will appreciate that the modules or steps of the above present disclosure can be achieved with a general-purpose computation apparatus, can be centralized on a single computation apparatus or distributed on a network composed of a plurality of computation apparatuses, and can be achieved with program codes executable by the computation apparatus, such that the modules or steps can be stored in a storage apparatus to be executed by the computation apparatus, and under some conditions, the steps shown or described can be executed in an order different from that herein, or the steps of modules can be fabricated separately as individual integrated circuit modules, or multiple ones of the modules or steps can be fabricated as a single integrated circuit module for implementation. Thus, the present disclosure is not limited to any combination of particular hardware and software.

What is described above is merely the exemplary embodiments of the present disclosure and is not intended to limit the present disclosure; and for those having ordinary skill in the art, the present disclosure can be modified and changed in various ways. Any modifications, equivalent substitutions, improvements, etc. within the principles of the present disclosure shall all fall within the scope of protection of the present disclosure.

Industrial applicability

As described above, a light-field perception based eyeball tracking method provided by embodiments of the present disclosure has the following benefits: a corneal center of user eyes can be computed without relying on a corneal spherical reflection model or flicker position, such that eyeball tracking may be achieved, and it is also unnecessary to position an external lighting source at a specific position relative to a light field camera, thereby greatly improving data quality, stability and tracking accuracy of eyeball tracking.

Claims (10)

Claims

1. A method for processing an operation ticket, comprising:

obtaining operation ticket information from a server, wherein the operation ticket information is information determined by the server based on a selection instruction sent from a target application (APP);

determining a target operation mode from a plurality of pre-configured operation modes based on the operation ticket information;

generating a target operation ticket according to the target operation mode under a condition of determining that a target operation condition is currently satisfied; and

sending the target operation ticket to a target key corresponding to the target operation ticket, wherein the target key has a capacity of automatically receiving and executing operation tickets.

2. The method according to claim 1, wherein before generating the target operation ticket according to the target operation mode under the condition of determining that the target operation condition is currently satisfied, the method further comprises:

determining whether the target operation condition is currently satisfied by at least executing following judgment operations:

a unique operation authority judgment, an anti mis-operation judgment, a judgment on whether a channel is normal, and a judgment on whether the target key already has an operation ticket,

wherein it is determined that the target operation condition is currently satisfied under a condition of determining that a unique operation authority is satisfied, there is no false trigger, the channel is in a normal state, and the target key has no other operation tickets.

3. The method according to claim 1, further comprising at least one of:

under a condition of generating the target operation ticket according to the target operation mode, sending a first notification message set to indicate successful generation of the target operation ticket to the server, so as to instruct the server to notify the target APP of successful generation of the target operation ticket; and

under a condition of determining that the target operation condition is not currently satisfied, sending a second notification message set to indicate unsuccessful generation of the target operation ticket to the server, so as to instruct the server to notify the target APP of unsuccessful generation of the target operation ticket and a failure reason, wherein the second notification message carries an indication message set to indicate the failure reason.

4. The method according to claim 1, wherein generating the target operation ticket according to the target operation mode comprises:

determining configuration attributes of a target device on which a target operation is to be executed, wherein the target operation is determined based on the target operation mode;

determining, according to the configuration attributes, a first operation step required to execute the target operation on the target device; and

generating the target operation ticket based on the first operation step.

5. The method according to claim 1, wherein generating the target operation ticket according to the target operation mode comprises:

determining a device type of a target device on which a target operation is to be executed, wherein the target operation is determined based on the target operation mode;

determining, according to the device type, a second operation step required to execute the target operation on the target device; and

generating the target operation ticket based on the second operation step.

6. The method according to claim 1, wherein generating the target operation ticket according to the target operation mode comprises:

determining an operation type of a target device on which a target operation is to be executed, wherein the target operation is determined based on the target operation mode;

determining, according to the operation type, a third operation step required to execute the target operation on the target device; and

generating the target operation ticket based on the third operation step.

7. The method according to claim 1, wherein after sending the target operation ticket to the target key corresponding to the target operation ticket, the method further comprises:

before the target key executes each operation step comprised in the target operation ticket, sending an inquiry message to the server to inquire whether to allow to execute the operation step currently to be executed; executing the operation step to be executed under a condition that the target key receives from the server a response allowing to execute the operation step; and terminating execution of the operation step to be executed and subsequent operation steps under a condition that the target key receives from the server a response not allowing to execute the operation step.

8. An apparatus for processing an operation ticket, comprising:

an obtaining module, configured to obtain operation ticket information from a server, wherein the operation ticket information is information determined by the server based on a selection instruction sent by a target application (APP);

a determination module, configured to determine a target operation mode from a plurality of pre-configured operation modes based on the operation ticket information;

a generation module, configured to generate a target operation ticket according to the target operation mode under a condition of determining that a target operation condition is currently satisfied; and

a sending module, configured to send the target operation ticket to a target key corresponding to the target operation ticket, wherein the target key has a capacity of automatically receiving and executing operation tickets.

9. A computer-readable storage medium storing a computer program, wherein the computer program implements operations of the method of any one of claims 1-7 when executed by a processor.

10. An electronic device, comprising a memory, a processor and a computer program stored on the memory and runnable on the processor, wherein the processor implements operations of the method of any one of claims 1-7 when executing the computer program.

Fig. 1 Fig. 1

Input/output device Input/output device Transmission Transmission 108 108 device 106 device 106

Processor 102 Processor 102

Memory Memory 104 104

1/6 1/6

Fig. 22 Fig.

Obtain operation Obtain operationticket ticket information fromaa server, information from server, wherein the wherein the operation ticket information operation ticket information is isinformation information determined by the determined by the server server S202 S202 based on a selection instruction sent from a target application based on a selection instruction sent from a target application

Determine Determine a atarget target operation operation mode modefromfroma a pluralityof plurality of pre-configured pre-configured S204 S204 operation modes operation modesbased basedononthe theoperation operationticket ticketinformation information

Generate a target Generate a target operation operation ticket ticket according according to theto the target target operation operation

mode under a condition of determining that a target operation mode under a condition of determining that a target operation S206 S206 conditionisiscurrently condition currently satisfied satisfied

Send the target operation ticket to a target key corresponding to the Send the target operation ticket to a target key corresponding to the

target operation target operationticket, ticket,wherein wherein the the target target keyahas key has a capacity capacity of of S208 S208 automatically receiving and executing operation tickets automatically receiving and executing operation tickets

2/6 2/6

Fig. 3 Fig. 3

DepotControl Depot ControlCenter Center(DCC) (DCC)

Cloudserver Cloud server

Communication Communication Smart phone Smart phone machine machine 4G 4G Videoserver Video server GROD Computer key Computer key ((g))

0

正线接触网挂接地线

Disconnector Disconnector Visual grounding Visual groundingcabinet cabinet Mobileground Mobile groundwire wire

On-site device On-site device

Fig. 4 Fig. 4

Maintenance Maintenance Cloudserver Cloud server module module 1

Operation Operation 4 Network Network ticket module ticket module 2 3 6

controller controller 5 7

8

APP APP 10 9

正线接触网挂接地线

Manualororelectric Manual electric disconnector disconnector Visual grounding Visual grounding apparatus or apparatus or ground wire ground wire

3/6 3/6

Fig. 5 Fig. 5

Assumingthat Assuming thatthere thereare are three sets of ground wires, three sets of ground wires,

when immobile when immobile groundground Operation Operation wires (e.g., a first set wires (e.g., a first set of of ticket ticket groundwires) ground wires)areare selected, selected, module module only the first set of ground only the first set of ground Computer Computer wires may wires maybebetaken, taken,andand key key whenmobile when mobileground ground wires wires 1 are selected, any one of are selected, any one of thethe 2 Imm- Mob Imm- Mob three three sets sets of of ground ground wires wires

obile -ile obile -ile maybebetaken may taken

3

正线接触网挂接地线

Mode1:1:ground Mode groundwire wire taking-electricity detecting- taking-electricity detecting- groundwire ground wireconnecting-electroscope connecting-electroscoperemoving-ground removing-ground wire removing-ground wire removing-ground wire wire returning returning

正线接触网挂接地线

Mode2:2:electricity Mode electricity detecting-ground wire taking- detecting-ground wire taking- groundwire ground - wireconnecting-electroscope connecting-electroscoperemoving-ground wire removing-ground wire removing-ground removing-ground wire wire returning returning

4/6 4/6

Fig. 66 Fig.

Operation ticket Computer module key

Mode 1: ground wire taking-electricity detecting- ground wire connecting-electroscope removing-ground wire removing-ground wire returning

Mode 2: Grounding operation: cabinet door opening- -change from remote control tolocal

through control --turning on a telecontrol mode through the key--automatic electricity detecting--

grounding button pressing--grounding completion--change from local control to remote control Ground wire removing operation: cabinet door opening-change from remote control

telecontrol mode to local control--turning on a telecontrol mode

throughthe through the key--switch-off key button pressing-successful switch-off-change from local control to remote control

5/6 5/6

Fig. 7 Fig. 7

Operation Operation ticket ticket

module module Computer Computer key key 1 2 Selection of local/ Selection of local/ Loc- Loc- Rem- Rem- al al ote ote remotecontrol remote control

3

Mode1:1:local Mode localcontrol control of of aa disconnector or disconnector or aa visual visual grounding grounding

apparatus apparatus

Disconnector Disconnector Mode2:2:remote Mode remotecontrol controlofofa a Visual Visual disconnector or disconnector or aa visual visual grounding grounding

grounding grounding apparatus apparatus

apparatus apparatus

Fig. 88 Fig.

82 82 Obtaining module Obtaining module

84 84 Determination module Determination module

86 86 Generation module Generation module

88 88 Sending module Sending module

6/6 6/6