CN115242974A - Image shooting method and device, electronic equipment, program product and storage medium - Google Patents

Abstract

The present specification provides an image capturing method, apparatus, electronic device, program product, and storage medium, which determine a target photographic subject in a photographic subject group and enter a framing picture when a photographing instruction of the photographic subject group is triggered, and perform target element rendering on a framing interface based on a target photographic subject attribute to display a target element on the framing interface. And performing target object detection on the viewing interface based on the target shooting object attribute, and taking the current viewing interface as a target object image when the shooting button is triggered. And determining the next target object in the shooting object group after the shooting is finished, and re-entering the framing picture until the shooting of all the shooting objects is finished. Thus, the distribution capacity can be actively reported to the platform by image shooting through the method. The method enriches the shooting function, can effectively remind the delivery capacity of the target shooting object needing to be shot at present, and improves the preparation success rate. And the continuous shooting operation is facilitated, and the shooting experience of the user is improved.

Description

Image shooting method and device, electronic equipment, program product and storage medium

Technical Field

Embodiments of the present disclosure relate to the field of image processing technologies, and in particular, to a method and an apparatus for capturing an image, an electronic device, a program product, and a storage medium.

Background

In recent years, with the rapid development of electronic commerce in China, electronic commerce has gradually become the mainstream business model nowadays. After the buyer purchases the goods through the e-commerce platform, the e-commerce platform or the cooperative third-party delivery platform can schedule delivery capacity such as deliverers and delivery devices to deliver the goods to the buyer. In the distribution process, if the distribution capacity cannot be distributed or is not distributed on time due to the non-distribution capacity responsibility event, that is, the distribution capacity is not performed, the distribution capacity can actively report to the platform to prolong the delivery time and avoid the non-performed responsibility. And a plurality of images for evidence can be uploaded during the preparation. In the related art, the delivery capacity does not know which conditions the evidencing image needs to meet, so that the reporting is failed and the evidencing is invalid.

Disclosure of Invention

The embodiment of the specification provides an image shooting method and device, electronic equipment, a program product and a storage medium, so that the success rate of preparation is improved.

According to a first aspect of embodiments herein, there is provided a method of capturing an image, the method including:

in response to a shooting instruction for a shooting object group being triggered, determining a target shooting object in the shooting object group and calling a shooting component to enter a viewing interface;

performing target element rendering on the view interface based on a target photographic object attribute to display the target element on the view interface;

carrying out target object detection on the view interface based on the target shooting object attribute;

and taking a current-moment view interface as a target shooting object image in response to the triggering of the shooting button, determining a target shooting object to be shot in the shooting object group, and reentering the view interface until the shooting of all the shooting objects in the shooting object group is completed.

In some examples, the method further comprises:

and updating and displaying a target element in the viewing interface by using a visual presentation parameter corresponding to the target object detection result based on the target object detection result so as to prompt a user of the target object detection result.

In some examples, the method further comprises:

responding to the triggering of a switching instruction of the shooting objects, determining the next shooting object from the shooting object group as the target shooting object and then reentering a framing interface according to the preset shooting sequence of the shooting object group; and/or the presence of a gas in the atmosphere,

and in response to the triggering of a first selection instruction of the shooting object, determining that the shooting object indicated by the first selection instruction is the target shooting object and then reentering a framing interface.

In some examples, the switching instruction is triggered by sliding in a preset direction through the viewing interface, and/or a switching control displayed through the viewing interface;

the first selection instruction is triggered by the selection control for displaying the shooting object group through the view interface.

In some examples, the method further comprises:

if the view finding interface does not comprise the target shooting object and comprises other shooting objects except the target shooting object, displaying selection prompts of the other shooting objects so as to prompt a user to reselect the other shooting objects as the target shooting objects.

In some examples, the determining a target photographic subject in the photographic subject group in response to the photographic instruction for the photographic subject group being triggered comprises:

responding to a shooting instruction of a shooting object group to be triggered, and displaying a selection interface of the shooting object group;

and determining that the shooting object indicated by the second selection instruction is the target shooting object according to the second selection instruction input by the user through the selection interface.

In some examples, the method is applied to a delivery side; the determining a target photographic subject in the photographic subject group in response to the photographic instruction to the photographic subject group being triggered comprises:

displaying an input function for inputting a non-delivery capacity responsibility event for delivery capacity;

and acquiring the event category input by the delivery capacity through the input function, triggering a shooting instruction of the shooting object group, and determining a target shooting object based on the event category.

In some examples, the event category includes that the merchant has not completed preparation of the dispensing item within a contracted time, and the target photographic object includes one or more of:

a preset shop mark;

waiting for the crowd;

the delivery order.

In some examples, the event category includes third party damage and/or theft of the dispensing, the target photographic subject includes a complete package of the dispensing, and/or a dispensing order;

and/or the event category comprises a fault of the transportation tool of the delivery capacity, and the target shooting object comprises the fault transportation tool.

According to a second aspect of the embodiments of the present specification, there is provided an image capturing apparatus mounted in a delivery terminal, the apparatus including:

the determining module is used for determining a target shooting object in the shooting object group and calling a shooting component to enter a viewing interface in response to a shooting instruction of the shooting object group being triggered;

the rendering module is used for rendering a target element on the view interface based on the target shooting object attribute so as to display the target element on the view interface;

the detection module is used for detecting a target object on the view-finding interface based on the target shooting object attribute;

and the shooting module is used for responding to the triggering of the shooting button, using a current-moment view finding interface as a target shooting object image, determining a target shooting object to be shot in the shooting object group and reentering the view finding interface until the shooting of all the shooting objects in the shooting object group is completed.

According to a third aspect of embodiments herein, there is provided an electronic apparatus comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor, when invoking the executable instructions, implements the operations of any of the methods of the first aspect.

According to a fourth aspect of embodiments herein, there is provided a computer program product comprising a computer program which, when executed by a processor, performs the steps of the method of any one of the first aspect above.

According to a fifth aspect of embodiments herein, there is provided a computer readable storage medium having stored thereon computer instructions which, when executed, perform the method of any of the first aspects above.

The technical scheme provided by the embodiment of the specification can have the following beneficial effects:

the embodiment of the specification provides an image shooting method, an image shooting device, an electronic device, a program product and a storage medium, when a shooting instruction of a shooting object group is triggered, a target shooting object in the shooting object group is determined and enters a framing picture, and then target element rendering is carried out on a framing interface based on target shooting object attributes so as to display a target element on the framing interface. And then, carrying out target object detection on the view interface based on the target shooting object attribute, and taking the current view interface as a target object image when the shooting button is triggered. And determining the next target object in the shooting object group after the shooting is finished, and reentering the framing picture until the shooting of all the shooting objects is finished. Thus, when the delivery capacity fails due to the non-delivery capacity liability event, the delivery capacity can be actively reported to the platform by image capturing in the above method. On the one hand, the target elements are displayed in the view finding interface, and the view finding interface is subjected to target object detection, so that the shooting function is enriched, the target shooting object needing to be shot at present by the delivery capacity can be effectively reminded, and the success rate of reporting is improved. On the other hand, after the current target shooting object is shot, the shooting interface of the next target shooting object is automatically entered, so that the shooting object group can be continuously shot, the continuous shooting operation is convenient, and the shooting experience of the user is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments consistent with the embodiments of the specification and, together with the description, serve to explain the principles of the embodiments of the specification.

FIG. 1 is an electronic commerce shopping system shown in accordance with one embodiment of the present description.

Fig. 2 is a flowchart illustrating a method of capturing an image according to an embodiment of the present disclosure.

Fig. 3 is a flowchart illustrating a method of capturing an image according to another embodiment of the present disclosure.

Fig. 4 is a flowchart illustrating a method of capturing an image according to another embodiment of the present disclosure.

A in FIG. 5 is a schematic diagram of a selection interface shown in the present specification according to one embodiment.

Fig. 5B to D are schematic diagrams of a viewing interface shown in this specification according to an embodiment.

Fig. 6a to C are schematic views of a viewing interface shown in accordance with another embodiment of the present specification.

FIG. 7 is a schematic diagram of a preview interface shown in accordance with one embodiment of the present specification.

Fig. 8 is a flowchart illustrating a method of capturing an image according to another embodiment of the present description.

Fig. 9 is a block diagram of a camera shown in this specification according to an embodiment.

FIG. 10 is a hardware block diagram of an electronic device shown in accordance with one embodiment of the present description.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. The following description refers to the accompanying drawings in which the same numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the examples of this specification. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the embodiments of the specification, as detailed in the appended claims.

The terminology used in the embodiments of the present specification is for the purpose of describing particular embodiments only and is not intended to be limiting of the embodiments of the present specification. As used in the specification examples and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It should be understood that although the terms first, second, third, etc. may be used in the embodiments herein to describe various information, the information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, the first information may also be referred to as second information, and similarly, the second information may also be referred to as first information, without departing from the scope of the embodiments herein. The word "if" as used herein may be interpreted as "at" \8230; "or" when 8230; \8230; "or" in response to a determination ", depending on the context.

In recent years, with the rapid development of electronic commerce in China, electronic commerce has gradually become the mainstream business model nowadays. The e-commerce shopping system 100 shown in FIG. 1 includes an e-commerce platform 110, a merchant end 120, a customer end 130, and a distribution end 140. Merchant end 120, customer end 130, and distribution end 140 may communicate through e-commerce platform 110; communication connections may also be established directly between merchant end 120, customer end 130, and distribution end 140 for direct communication.

The e-commerce platform 110 may be hosted on a server, or a server cluster comprised of multiple servers. The e-commerce platform 110 may provide a full-process service such as online trading and management, and has various functions such as advertisement promotion, online exhibition, virtual exhibition, consultation negotiation, online ordering, online payment, electronic account, service delivery, opinion inquiry, and trading management.

The number of merchant terminals 120, customer terminals 130, and distribution terminals 140 may be plural (only one merchant terminal, one customer terminal, and one distribution terminal are shown in fig. 1 as an example). The merchant terminal 120, the customer terminal 130 and the distribution terminal 140 may be loaded in an electronic device and run in the electronic device in the form of an applet or APP (Application). Wherein a user may install any one or more of merchant end 120, customer end 130, and distribution end 140 simultaneously in an electronic device. When a user uses the functionality provided by the merchant terminal 120, the user's identity is a merchant; when the user uses the function provided by the buyer terminal 130, the user is identified as the buyer; when a user uses the functionality provided by the dispensing end, the identity of the user is the dispensing capacity. Electronic devices may include, but are not limited to, computers, laptops, cellular phones, camera phones, smart phones, personal digital assistants, or servers and like devices having data processing capabilities.

The merchant end 120 may provide the merchant with a variety of marketing functions including, but not limited to, product handling functions, order handling functions, customer consultation functions, payment setup functions, distribution setup functions, and the like. The customer end 130 may provide a variety of shopping functions for the customer, including but not limited to product display function, shopping cart function, payment function, order management function, etc. The distribution end 140 may provide various distribution functions for distributing capacity, including but not limited to order taking, navigation, preparation, order management, and the like.

A buyer can purchase goods on the e-commerce platform 110 through the buyer terminal 130, and then the e-commerce platform 110 or a cooperative third-party delivery platform can schedule delivery capacity such as a deliverer, a delivery device, etc. to deliver the goods to the buyer. During the distribution process, if the distribution capacity cannot be distributed or is not distributed on time due to the non-distribution capacity responsibility event, that is, the distribution capacity does not perform, the distribution capacity can be actively reported to the platform by the distribution terminal 140 to extend the delivery time, avoid the non-performing responsibility, and the like. Multiple images may be uploaded during the preparation, the uploaded images being used to demonstrate that non-performing behavior of the distribution capacity is caused by a non-distribution capacity liability event.

In the related art, the delivery capacity does not know which conditions the evidencing image needs to meet, so that the reporting is failed and the evidencing is invalid. To this end, an embodiment of the present specification proposes a method for capturing an image, including the steps shown in fig. 2:

step 210: in response to a shooting instruction for a shooting object group being triggered, determining a target shooting object in the shooting object group and calling a shooting component to enter a viewing interface;

step 220: performing target element rendering on the view interface based on a target photographic object attribute to display the target element on the view interface;

step 230: carrying out target object detection on the view interface based on the target shooting object attribute;

step 240: and taking a current-moment view interface as a target shooting object image in response to the triggering of the shooting button, determining a target shooting object to be shot in the shooting object group, and reentering the view interface until the shooting of all the shooting objects in the shooting object group is completed.

The method can be applied to a distribution scene. In the process of distribution capacity preparation, images of a plurality of different shooting objects are often required to be uploaded to prove that the non-performing behavior of the distribution capacity is caused by a non-distribution capacity liability event. Thus, the distribution capacity requires that images of a plurality of different subjects be continuously captured at the distribution end. The above method may then be performed by the distribution end 140 as shown in fig. 1. Of course, the application scenario of the method is not limited to the distribution scenario, and may also include other scenarios that require continuous shooting of multiple shooting objects, such as shooting of a vehicle damage image.

The photographic subject group comprises one or more photographic subjects, and the shooting instruction of the photographic subject group indicates that all photographic subjects in the photographic subject group are shot. When the shooting instruction is triggered, a target shooting object is determined from the shooting object group, and a shooting component is called to enter a framing interface. The determination of the target shooting object and the calling of the shooting component do not have a sequential execution sequence, and can be performed simultaneously. The shooting component may be an image acquisition device, such as a camera, mounted on the device executing the method, or an image acquisition device on another device in communication connection with the device executing the method. As such, invoking the capture component may be waking up the capture component and entering the viewing interface through a communication connection between the devices.

The viewing interface comprises a shooting preview picture, and the shooting preview picture shows the image content captured by the shooting component in real time. In addition, in some embodiments, the viewing interface may further include functionality controls, such as a capture control, a camera translation control, and the like.

Based on the target photographic subject attribute, a target element corresponding to the target photographic subject can be determined. In this manner, target element rendering may be performed on the viewfinder to display the target elements on the viewfinder interface. And detecting the target object on the viewing interface based on the target object attribute. Taking the delivery scenario as an example, the target object attributes may include, but are not limited to, stores, people in line, transportation tools, delivery orders, and the like. Different target subjects may have the same target subject attribute. For example, if the target photographic subject is a shop name or a house logo, the target photographic subject attributes of the shop and the house logo are both shops. For another example, if the target object is an instrument panel or a tire, the target object attributes of the instrument panel or the tire are all transportation tools. Different target shooting object attributes correspond to different target elements, wherein the target elements can include, but are not limited to, patterns, characters and the like. The target element is displayed on a viewing interface, and target object detection is carried out, so that a user (such as delivery capacity) can be effectively reminded of a target shooting object which needs to be shot at present.

And when the shooting button is triggered, taking the view interface at the current moment as a target shooting object image so as to shoot the current target shooting object. The shooting button may be a physical key, for example, a single physical key or a combination of multiple physical keys provided on the device for executing the method. The user may activate the physical key to activate the shoot button by one or more of touching, pressing, and voice controlling. The shooting button may also be a virtual key, for example, a shooting control in the viewing interface, and the user may trigger the shooting control by touching and/or controlling by voice, etc. to trigger the shooting button.

After the shooting of the current target shooting object is finished, the target shooting object to be shot in the shooting object group is automatically determined and enters a view interface again until all the shooting objects are shot. The target shooting object and the target shooting object entering the view interface are determined not to be executed in sequence, and the target shooting object entering the view interface can be executed simultaneously. In addition, the next shooting object of the current target shooting object can be determined as the target shooting object according to the preset shooting sequence of the shooting object group, and the shooting object group enters the view finding interface again; any photographic subject not yet photographed can be selected from the photographic subject group as a target photographic subject and reenters the viewing interface.

The embodiment of the specification provides an image shooting method, which is applied to a distribution scene, and when distribution capacity is not performed due to a non-distribution capacity responsibility event, the distribution capacity can be shot through the method so as to actively report to a platform. On the one hand, the shooting function is enriched by displaying the target elements in the view-finding interface and detecting the target objects in the view-finding interface, so that the target shooting objects needing to be shot at present by the delivery capacity can be effectively reminded, and the success rate of reporting is improved. On the other hand, after the current target shooting object is shot, the shooting interface of the next target shooting object is automatically entered, the shooting object group can be continuously shot, a user (such as delivery capacity) does not need to manually click the next target object for shooting, the continuous shooting operation is convenient, the time consumed by continuous shooting is saved, and the shooting experience of the user is improved.

The embodiment of the present specification may be applied to scenes requiring continuous shooting of a plurality of shooting objects, including but not limited to a distribution scene and a car damage image shooting scene, and the following description will be made by taking the distribution scene as an example.

In the distribution scene, the distribution end may provide a preparation function, and when the distribution capacity is in the distribution process, i.e., in the fulfillment process, the distribution capacity is not fulfilled due to a non-distribution capacity responsibility event, the preparation may be performed through the preparation function provided by the distribution end. Wherein, delivery capacity can refer to deliverers, such as take-away riders, express delivery dispatchers, and the like. The distribution end may be provided with a user interface, which may include a backlog control. The delivery capacity can trigger the arming function to arm through the arming control. The shooting instruction for the shooting object group is triggered, and may be that the preparation control is triggered. Non-delivery capacity responsibility events refer to events for which no performance responsibility lies with the delivery capacity, including, but not limited to, one or more of the following categories of events:

(1) The merchant does not complete the preparation of the dispensing item within the appointed time: in a meal delivery scene, a merchant has a slow meal delivery and a large number of waiting people, so that the merchant does not finish preparing meals when delivery capacity arrives.

(2) Third party damage and/or theft of the dispensing: in the contactless delivery, after the delivery capacity places the delivered item at a location designated by the buyer and the delivery is completed, the delivered item is damaged or stolen by the delivery capacity and a third party other than the buyer before the buyer takes the delivered item.

(3) Failure of transportation tool for delivery: such as failure of the electric vehicle and tire breakage.

(4) Traffic congestion, force-inefficacy factors, and the like.

The above list does not constitute a limitation on non-delivery capacity responsible events, and other events belonging to non-performing responsibilities other than delivery capacity fall within the scope of non-delivery capacity responsible events described herein.

Because evidence such as images need to be provided during reporting, when the distribution end detects that the reporting function is triggered, namely, when a shooting instruction for the shooting object group is triggered, the shooting component can be called to start the shooting function, and the shooting component enters a view interface. And a shooting preview picture is displayed in the viewing interface so as to be used for transmitting the transport capacity shooting image. And displaying a target element corresponding to the target photographic object in the view interface, and carrying out target object detection on the view picture to guide the distribution capacity to shoot an image comprising the target photographic object, so that the image comprising the target photographic object can be used for carrying out non-fulfillment processing on the distribution capacity. Wherein the handling of disqualification of the capacity may include exemption or mitigation of liability.

As described above, the non-delivery capacity responsible event may include a plurality of event categories, wherein the non-delivery capacity responsible events of different event categories correspond to different target photographic subjects.

As an example, when the event category of the non-delivery capacity liability event includes that the merchant does not complete the preparation of the delivered goods within the appointed time, the target photographic subject may include, but is not limited to, a preset shop identification, a waiting crowd, a delivered goods order, and the like.

The store identification may include, but is not limited to, a store name, a store trademark, and other identification with identification degree. The preset shop identification is matched with the identification of the merchant in the distribution. Since the merchants corresponding to each shipment may or may not be the same, different store identifications may be detected in the viewfinding interface in the preparations for different shipments. Through character recognition of the viewing interface, whether the preset shop identification is included in the viewing interface can be determined. For example, after performing character recognition on the shot picture, the detected shop identifier may be matched with the identifier of the merchant in the distribution, and if the matching degree reaches a preset threshold, it is determined that the framing interface includes the identifier of the merchant in the distribution. Taking an image that includes a preset store identification may prove that the distribution capacity has arrived at the store awaiting pickup.

In addition, through people identification of the viewing interface, whether the viewing interface comprises a waiting crowd or not can be determined. For example, the number of people may be determined from the viewing interface by using a people recognition technology, and if the number of people reaches a preset number threshold, it is determined that the waiting people are included in the viewing interface. Taking an image that includes a waiting group of people may prove that the merchant has not completed preparing the delivery within an agreed time and that it takes some time for delivery capacity to be available.

Further, by performing text recognition on the viewfinder interface, it can be determined whether the photographed viewfinder interface includes a delivery order. Typically, the merchant prints an order form for the shipment and delivers the order along with the shipment to be delivered by the shipping capacity. In this way, order information, such as merchant name information, delivered item information, customer information, etc., can be detected from the viewing interface by using a character recognition technology, and then the detected order information is matched with the corresponding order in the delivery, so that the order in the viewing interface is determined as the order corresponding to the delivery.

In some scenarios, if waiting people are queued up in front of a store door, an image may be used to verify that delivery capacity has reached the store and that it takes some time to pick up the goods. Therefore, character recognition and character recognition can be simultaneously carried out on the viewing interface, and whether the viewing interface comprises the preset shop identification and the waiting crowd or not is determined.

By way of example, when the event category of the non-delivery capacity liability event includes third party damage and/or theft of the shipment, the target photographic object may include, but is not limited to, a complete package of the shipment, an order for the shipment, and the like.

As described above, in the contactless distribution, after the distribution capacity places the distributed items at a place designated by the buyer to complete the distribution, the distributed items may be damaged or stolen by a third party before the buyer takes the distributed items. In order to prove that the distribution capacity has finished the distribution after the third party damages and/or steals the distribution, the distribution capacity can shoot the image comprising the shot object through the preparation function of the distribution end after the distribution is finished. For example, the client may send the captured image to the server for storage by the server; or, the shot image may be stored locally, and when the buyer reflects that the delivered goods are not received or the delivered goods are damaged, the shot image is uploaded for preparation through a preparation function of the delivery end.

It is understood that in the related art, when the buyer reflects that the delivery is not received, or the delivery is damaged, it is often difficult for an arbitrator (e.g., an e-commerce platform) to judge whether the delivery is not successful or the delivery is damaged or stolen by a third party. At this time, if the delivery capacity can provide evidence that the delivery capacity has been completed, it is beneficial for the arbitrator to make a judgment. However, the delivery capacity often fails because the image which can prove that the delivery is completed by the delivery capacity is not shot in advance, or the shot image does not include the preset shot object. The embodiment of the specification enriches the shooting function of the distribution end, guides the distribution capacity to shoot images capable of providing evidences in advance before a third party damages or steals the distribution objects after the distribution is completed, reduces the arbitration difficulty of an arbitrator and guarantees the rights and interests of the distribution capacity.

Wherein, by performing object recognition on the viewing interface, it can be determined whether the viewing interface comprises the dispensing item, and/or the complete packaging of the dispensing item. Taking an image of the completed package including the contents and/or the distribution may prove that the distribution was delivered by the distribution capacity and that the contents were not damaged during the distribution process.

Further, by performing text recognition on the viewing interface, it can be determined whether the viewing interface includes an order for a delivery. As described above, the merchant prints the order form for the shipment and delivers the order along with the shipment to the delivery capacity for delivery. In this way, order information, such as merchant name information, delivered item information, customer information, etc., can be detected from the viewing interface by using a character recognition technology, and then the detected order information is matched with the corresponding order in the delivery, so that the order in the viewing interface is determined as the corresponding order in the delivery.

Further, by performing character recognition on the framing interface, it can be determined whether the framing interface includes customer address information. As in contactless distribution, a customer may specify a place to place the distribution, such as a doorway of a cell B. After the delivery capacity places the delivery at the location designated by the customer, the location of the delivery may be photographed, such as by taking an image of the cell a and an image of the doorway of the cell B, to verify that the delivery has been delivered to the location designated by the customer. After the character recognition is carried out on the shot picture, the detected address information can be matched with the customer address information, and if the matching degree reaches a preset threshold value, the fact that the customer address information is included in the viewing interface is determined.

In some scenarios, the viewing interface may include both the shipment and the shipment order. Thus, object identification and character identification can be simultaneously carried out on the viewing interface, and whether the viewing interface comprises the delivered objects, the complete package of the delivered objects and the delivered object orders or not is determined.

In some scenarios, the viewing interface may include both the dispensing item and the customer address information. Thus, object recognition and character recognition can be simultaneously carried out on the viewing interface, and whether the viewing interface comprises the delivered objects, the complete package of the delivered objects and the address information of the customer is determined.

As an example, when the event category of the non-delivery capacity liability event includes a failure of the transportation means that delivers capacity, the target photographic subject may include, but is not limited to, the failed transportation means. For example, the walk-substituting tool can be a motor-driven or non-motor-driven vehicle such as a bicycle, a battery car, a truck and the like. Failure of the mobility tool may include failure to start, tire breakage, air leakage, etc. In this manner, by performing object recognition on the viewing interface, it can be determined whether the viewing interface includes a malfunctioning conveyance. For example, it may be possible to detect whether a tire in the viewing interface is flat and flat. If the travel tool comprises an instrument panel, whether the instrument panel in the view interface is lighted or not or whether a fault lamp in the instrument panel is lighted or not can be detected.

In some embodiments, the target photographic subject may be determined based on an event category of the non-delivery capacity responsible event of the delivery capacity input. Thus, the step 210 of determining the target photographic subject in the photographic subject group in response to the photographing instruction for the photographic subject group being triggered may include the steps shown in fig. 3:

step 211: displaying an input function for inputting a non-delivery capacity responsibility event for delivery capacity;

step 212: and acquiring the event category input by the distribution transport capacity through an input function, triggering a shooting instruction of the shooting object group, and determining a target shooting object based on the event category.

As an example, the delivery end may provide an equipment control in the user interface, and when receiving a triggering instruction of the equipment control, the delivery end considers that the equipment function is triggered. When the prepare function is triggered, the input function described above may be presented for delivery capacity input to non-delivery capacity liability events. For example, when the preparation control is triggered, the user jumps to the next interface and displays the input function in the next interface.

As another example, an enter-in function may be directly presented in the user interface, and when the enter-in function is triggered, the prepare function is considered triggered.

The input function may be presented in the user interface and/or the next interface in one or more of a plurality of selection controls, voice input controls, text input controls corresponding to a plurality of categories of non-delivery capacity responsibility events. That is, the input function may include, but is not limited to, a text input function, a selection input function, a voice input function, and the like. The delivery capacity may enter non-delivery capacity liability events by one or more of text entry, selection entry, and voice entry.

The event categories may include, but are not limited to, events resulting from the merchant's failure to complete the preparation of the distribution within a contracted time, third party damage and/or theft of the distribution, transportation vehicle failure, traffic congestion, force-of-failure factors, etc., as described above.

The event category of the non-distribution capacity responsibility event of the distribution capacity input can be obtained through the input function provided by the distribution end. At this time, a photographing instruction of the photographic subject group may be triggered, and the target photographic subject may be determined based on the event category. It can be understood that, since different event types correspond to different target photographic objects, that is, different photographic object groups, after it is detected that the delivery capacity inputs the event type, a photographic instruction of the photographic object group can be triggered to call the photographic component and enter the viewing interface.

As described above, different event categories correspond to different target photographic subjects, that is, different photographic subject groups. For example, for a merchant that has not completed preparing a shipment within a contracted time, the delivery capacity submission may be required to include a preset store identification and a waiting crowd in the at least one image. After determining the group of subjects based on the event category, that is, determining all subjects to be photographed, in some embodiments, as shown in fig. 2, a target subject may be determined from the group of subjects, and the target subject may enter a viewfinder interface (step 210), a target element corresponding to the target subject may be displayed in the viewfinder interface, and target object detection of the target subject may be performed on the viewfinder interface (step 220).

And updating the target elements in the display view interface by using the visual presentation parameters corresponding to the target detection result based on the target detection result so as to prompt the user of the target detection result. That is, different target object detection results correspond to different visual presentation parameters of the target element. The target elements may include, but are not limited to, text, and/or patterns, among others. Visual presentation parameters may include, but are not limited to, brightness, contrast, color, font size, and the like. For example, if the target photographic subject is not detected, the target element is displayed in the finder screen using red; if the target photographic subject is detected, the target element is displayed in the viewfinder frame in green. For another example, the target element may be initially displayed in gray in the viewfinder interface, and when the target photographic subject is not detected within a preset time period, the target element is displayed in red in the viewfinder screen; if the target photographic subject is detected, the target element is displayed in the viewfinder frame in green.

After determining the group of objects to be photographed based on the event category, that is, determining all the objects to be photographed, in other embodiments, the target object may not be determined, but the target object may directly enter the viewfinder interface, and whether at least one object in the group of objects to be photographed is included in the viewfinder interface is detected. As in the above example, after determining that the group of photographic subjects includes the preset shop identification and the waiting crowd based on the event category "the merchant does not complete the preparation of the delivered item within the appointed time" input by the delivery capacity, it is possible to directly enter the finder interface and detect whether the preset shop identification and/or the waiting crowd are included in the finder interface.

As an example, when at least one photographic subject is detected in the viewing interface, a target element corresponding to the detected photographic subject may be displayed in the viewing interface. The target elements may include, but are not limited to, text, and/or patterns, among others. As in the above example, if a waiting crowd is detected in the viewing interface, a text prompt message of "waiting crowd" may be displayed in the viewing interface, and the displayed text "waiting crowd" is the target element.

As another example, target elements corresponding to all the targets may be displayed in the viewing interface, and the target element corresponding to the detected target is differentiated from the target elements corresponding to the undetected targets by different visual presentation parameters. The visual presentation parameters may include, but are not limited to, brightness, contrast, color, font size, and the like. As in the above example, text prompt information of "shop logo" and "waiting crowd" may be displayed in the finder interface. If a waiting crowd is detected in the viewing interface, the font color of the waiting crowd can be green, and the font color of the shop identification is gray, so as to prompt the distribution capacity to detect the waiting crowd through the current viewing interface.

As described above, the event categories of the non-delivery capacity responsibility events correspond to different target photographic subjects, wherein the event categories can correspond to a plurality of target photographic subjects, that is, the photographic subject group includes a plurality of photographic subjects. As such, regarding determining a target photographic subject in the photographic subject group in response to a photographing instruction for the photographic subject group being triggered, in some embodiments, any photographic subject in the photographic subject group may be determined to be the target photographic subject. In some embodiments, the target photographic subject may be determined according to a photographic order preset by the photographic subject group. In other embodiments, the target photographic subject may also be selected by the user from the group of photographic subjects. Thus, the method for capturing an image provided by the embodiments of the present specification may include the steps shown in fig. 4:

step 410: in response to a shooting instruction for a shooting object group being triggered, displaying a selection interface of the shooting object group;

step 420: according to a second selection instruction input by a user through the selection interface, determining that the shooting object indicated by the second selection instruction is the target shooting object, and calling a shooting component to enter a viewing interface;

step 430: performing target element rendering on the view interface based on a target photographic object attribute to display the target element on the view interface;

step 440: carrying out target object detection on the view interface based on the target shooting object attribute;

step 450: and taking a current-moment view interface as a target shooting object image in response to the triggering of the shooting button, determining a target shooting object to be shot in the shooting object group, and reentering the view interface until the shooting of all the shooting objects in the shooting object group is completed.

The explanation and explanation of steps 430 to 450 can refer to steps 220 to 240, which are not described herein.

The selection interface 510 shown in fig. 5A includes a plurality of photographic subjects 511, and the plurality of photographic subjects 511 constitute a photographic subject group. The delivery capacity can select a target photographic subject through a selection interface. For example, if "shoot head shot" is selected, the target object is a preset shop logo. Further, among the plurality of photographic subjects, a photographic subject that has to be photographed, and a photographic subject that can be selectively photographed may be included. As such, whether the photographic subject is necessarily photographed or is optionally photographed can be identified in the photographic subject 511. After the target photographic subject is selected, the photographing component can be called by triggering the confirmation preparation control 512 to start the photographing function, and the user jumps to the view interface 520 shown in fig. 5B. The viewfinder interface 520 includes a capture preview screen 521, and functional controls such as a select control 522, a capture control 523, and the like. By performing object detection on the viewing interface 520, it can be determined whether the viewing interface 520 includes a target subject selected by the delivery capability. The viewing interface 520 may also include an explanation of the target photographic subject and an example image. As shown in the viewfinder interface 520 of fig. 5B, the explanation "upload merchant's photo (take by necessity), prove that the captured head is the same store as the order" of the target subject store identification is included, as well as example images to guide the delivery capacity to take images that can be used for the processing of non-fulfillment.

In addition, after entering the viewing interface 520, the first selection instruction may also be triggered by the selection control 522 of the photographic subject group displayed by the viewing interface. And in response to the triggering of the first selection instruction of the shooting object, determining that the shooting object indicated by the first selection instruction is the target shooting object and then reentering the framing interface. That is, the delivery capacity can be switched to another photographic subject by selecting the control 522, so as to detect another photographic subject in the viewfinder interface 520.

In some embodiments, when it is detected that the preparation function is triggered, the camera function may be turned on and the viewing interface 520 shown in fig. 5B may be presented. The viewfinder interface 520 may include a capture preview screen 521, as well as functional controls such as a select control 522, a capture control 523, and the like. The user may directly select and/or switch the target photographic subject through the selection control 522, and then detect whether the viewing interface 520 includes the target photographic subject according to the delivery capacity of the target photographic subject selected through the selection control 522.

In the above-described embodiment, as shown in fig. 5B, the viewfinder interface 520 may further include a target element 5211 corresponding to the target photographic subject. For example, when the target photographing object is a preset store identification, the corresponding target element may be a shape representing the store to instruct the distribution capacity to photograph the store. For another example, when the target photographic subject is a waiting crowd, the corresponding target element may be a shape representing a queue to indicate the distribution capacity to photograph the waiting crowd.

In addition, the target element 5211 can be displayed in different visual presentation parameters according to the target detection result of the viewing interface 520. The visual presentation parameters may include, but are not limited to, brightness, contrast, color, and the like, among others. As with the viewfinder interface 520 shown in fig. 5B-5C, when the target subject store identification is not detected in the viewfinder interface 520, the target element 5211 is displayed in a first visual presentation parameter, such as red; when the framing interface 520 detects the target subject store identification, the target element 5211 is displayed with a second visual presentation parameter, such as green.

In the above embodiment, the delivery capacity may select the target photographic subject through a selection control in the selection interface or the framing interface. In some scenes, if the selected target photographic subject is not included in the viewing interface and other photographic subjects except the target photographic subject are included in the viewing interface, a selection prompt of other photographic subjects can be displayed in the viewing interface to prompt the distribution capacity to reselect other photographic subjects as the target photographic subject. As in the above example, if the delivery capacity selects "shoot head shot" through the selection control in the selection interface or the finder interface, that is, if the preset shop id is the target shooting object, but the shop id is not detected in the finder interface, and it is detected that the finder interface includes the waiting crowd, then the "can be displayed in the finder interface," do the current screen detect no shop id, but detect the waiting crowd, switch shooting waiting crowd? And the selection prompt prompts the distribution capacity to reselect the waiting crowd as the target shooting object.

In the above embodiment, the shooting control 523 is included in the viewfinder interface 520 as shown in fig. 5B to 5C. The delivery capacity can be image-captured through the capture control 523. In the case where the target object is not detected in the viewfinder interface 520, the delivery capacity may still capture an image through the capture control 523. After the target photographic subject image is obtained, image photographing may be performed according to a photographing order preset by a plurality of photographic subjects. As described above, a certain category of non-delivery capacity responsibility event may correspond to a plurality of target photographic subjects. In this way, a preset shooting sequence can be formed among all the shooting objects. After the current target photographic subject completes the photographing, the photographing of other photographic subjects can be completed according to the photographing order.

As an example, after obtaining the target photographic subject image, the next target photographic subject may be determined according to the photographing order and automatically switched to the framing interface, where the next target photographic subject is detected until the image photographing of the plurality of photographic subjects is completed.

As another example, after obtaining an image including a target photographic subject, a jump may be made to the viewfinder interface 530 as shown in fig. 5D. The viewing interface 530 includes a captured image 531, a selection control 532, a rephoto control 533, and a toggle control 534. As described above, the delivery capacity can select other photographic subjects as the next target photographic subject by selecting control 532. In addition, the dispatch capacity may also trigger a switch instruction via switch control 534. When the switching control 534 is triggered, it is possible to switch to the next photographic subject for photographing in a preset photographing order until image photographing of a plurality of photographic subjects is completed. Alternatively, the delivery capacity may be directly input by sliding the viewfinder interface 530 in a predetermined direction, such as left/right sliding. When the view finding interface slides to the left/right, the next shooting object can be switched to for shooting according to the preset shooting sequence until the image shooting of a plurality of shooting objects is completed.

For example, after receiving a command for switching the objects triggered by the delivery capacity, the next target object may be determined as a waiting crowd according to a preset shooting order of a plurality of objects, and the process may jump to the viewfinder interface 610 shown in fig. 6A. The viewing interface 610 includes a capture preview screen 611, and functionality controls such as a select control 612, a capture control 613, and the like. By performing object detection on the viewing interface 610, it can be determined whether the viewing interface 610 includes a target photographic subject waiting crowd. The viewing interface 610 may also include an explanation of the target photographic subject and an example image. In the viewing interface 610 shown in fig. 6A, an explanation of the target subject waiting group, "upload store rider in line for a meal photo, take rider in line for a meal photo", and example images are included to guide the distribution capacity to take an image that can be used for the non-fulfillment process. After entering the viewfinder interface 610, the user can switch to another shooting object through the selection control 612 in the viewfinder interface to detect another shooting object in the viewfinder interface 610.

In addition, the viewing interface 610 may also include a target element 6111 corresponding to the waiting crowd. The target element 6111 may be a shape representing a queue to indicate delivery capacity to photograph waiting people. The target element 6111 may serve as a prompt to prompt the delivery capacity to take an image including a waiting crowd. The target element 6111 is used as prompt information, and can be displayed in a differentiated manner according to different visual presentation parameters according to the target object detection result of the viewing interface 610. The visual presentation parameters may include, but are not limited to, brightness, contrast, color, and the like, among others. As with the viewfinder interface 610 shown in fig. 6A-6B, when the target photographic subject waiting for the crowd is not detected in the viewfinder interface 610, the target element 6111 is displayed with a first visual presentation parameter, such as red; when the viewfinder interface detects that the target photographic subject is waiting for a crowd, the target element 6111 is displayed in a second visual presentation parameter, such as green. Subsequently, the delivery capacity may be image-captured by the capture control 613, resulting in the viewing interface 620 as shown in fig. 6C. The viewfinder interface 620 includes a captured image 621, a selection control 622, a rephoto control 623, and a toggle control 624. For the shooting process of the next image, reference is made to the above embodiments, and details of the embodiments in this specification are not repeated herein.

In the above-described embodiment, after the plurality of images including the photographic subject are completed, it is possible to jump to the preview interface 700 shown in fig. 7. The preview interface 700 shows the images 710 taken in this offer for delivery capacity review. The preview interface 700 further includes a confirmation reporting control 720, and after the image is confirmed to be correct, the delivery capacity can be reported by triggering the confirmation reporting control 720 to upload the shot image.

Based on any of the above embodiments, the method for capturing an image provided in this specification may further include the steps shown in fig. 8:

step 810: if the detection result of the target object indicates that the view interface comprises the target shooting object, displaying qualified image information in the view interface; and/or

Step 820: if the detection result of the target object indicates that the view interface does not comprise the target shooting object, displaying unqualified image information in the view interface;

and shooting the images by the distribution capacity according to the image qualified information and/or the image unqualified information.

If the viewing interface includes the target photographic subject, the photographed image can be used for processing that the delivery capacity is not fulfilled, and the image is judged to be a qualified image, so that image qualified information can be displayed in the viewing interface. Otherwise, displaying the unqualified image information.

In some embodiments, the image qualified information and the image unqualified information can be displayed in different visual presentation parameters in a differentiated mode, so that the two information can be distinguished more easily visually, and the image qualified information and the image unqualified information are helpful for guiding the distribution capacity to shoot images.

The embodiment of the specification provides an image shooting method, when a shooting instruction of a shooting object group is triggered, a target shooting object in the shooting object group is determined and enters a framing picture, and target element rendering is carried out on a framing interface based on target shooting object attributes so as to display the target element on the framing interface. And then, carrying out target object detection on the viewing interface based on the target shooting object attribute, and taking the current viewing interface as a target object image when a shooting button is triggered. And determining the next target object in the shooting object group after the shooting is finished, and re-entering the framing picture until the shooting of all the shooting objects is finished. Thus, when the delivery capacity is not fulfilled due to the non-delivery capacity liability event, the delivery capacity can be actively reported to the platform by image capturing through the method. On one hand, the target elements are displayed in the view finding interface, and the view finding interface is subjected to target object detection, so that the shooting function is enriched, the target shooting object needing to be shot at present can be effectively reminded of delivery capacity, and the success rate of reporting is improved. On the other hand, after the current target shooting object is shot, the shooting interface of the next target shooting object is automatically entered, so that the shooting object group can be continuously shot, the continuous shooting operation is convenient, and the shooting experience of the user is improved.

Based on the method for capturing an image according to any of the embodiments, the present invention further provides a capturing apparatus 900 as shown in fig. 9, where the capturing apparatus 900 is installed in a distribution terminal, and includes:

a determining module 910, configured to determine a target photographic object in a photographic object group and call a photographic component to enter a viewing interface in response to a photographing instruction for the photographic object group being triggered; a rendering module 920, configured to perform target element rendering on the view interface based on a target photographic object attribute, so as to display the target element on the view interface;

a detection module 930, configured to perform target object detection on the viewing interface based on the target photographic object attribute;

and the shooting module 940 is configured to take the current-time view interface as a target shooting object image in response to the shooting button being triggered, determine a target shooting object to be shot in the shooting object group, and re-enter the view interface until shooting of all the shooting objects in the shooting object group is completed.

The implementation process of the functions and actions of each module in the above device is detailed in the implementation process of the corresponding steps in the above method, and is not described herein again.

Based on the method for capturing an image according to any of the embodiments, an embodiment of the present specification further provides a schematic structural diagram of an electronic device shown in fig. 10. As shown in fig. 10, at the hardware level, the electronic device includes a processor, an internal bus, a network interface, a memory, and a non-volatile memory, but may also include hardware required for other services. The processor reads a corresponding computer program from the nonvolatile memory into the memory and then runs the computer program to implement the image capturing method according to any of the embodiments.

Based on the method for capturing an image according to any of the embodiments, an embodiment of the present specification further provides a computer program product, which includes a computer program, and when the computer program is executed by a processor, the computer program can be used to execute the method for capturing an image according to any of the embodiments.

Based on the method in any of the above embodiments, the present specification further provides a computer storage medium, where a computer program is stored, and the computer program, when executed by a processor, is operable to execute a method for capturing an image in any of the above embodiments.

The foregoing description of specific embodiments has been presented for purposes of illustration and description. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.

Other embodiments of the present disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. The embodiments of the specification are intended to cover any variations, uses, or adaptations of the embodiments of the specification following, in general, the principles of the embodiments of the specification and including such departures from the present disclosure as come within known or customary practice within the art to which the embodiments of the specification are not applied. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the embodiments being indicated by the following claims.

Claims (10)

1. A method of capturing an image, the method comprising:

in response to a shooting instruction for a shooting object group being triggered, determining a target shooting object in the shooting object group and calling a shooting component to enter a viewing interface;

performing target element rendering on the view interface based on a target photographic object attribute to display the target element on the view interface;

performing target object detection on the view interface based on the target shooting object attribute;

and in response to the fact that the shooting button is triggered, taking the current-time view interface as a target shooting object image, determining a target shooting object to be shot in the shooting object group, and reentering the view interface until all the shooting objects in the shooting object group are shot.

2. The method of claim 1, further comprising:

and updating and displaying a target element in the viewing interface by using a visual presentation parameter corresponding to the target detection result based on the target detection result so as to prompt a user of the target detection result.

3. The method of claim 1, further comprising:

responding to the triggering of a switching instruction of a shooting object, determining the next shooting object from the shooting object group as the target shooting object and then reentering a viewing interface according to a preset shooting sequence of the shooting object group; and/or the presence of a gas in the gas,

and in response to the triggering of a first selection instruction of the shooting object, determining that the shooting object indicated by the first selection instruction is the target shooting object and then re-entering a viewing interface.

4. The method of claim 1, further comprising:

if the view finding interface does not comprise the target shooting object and comprises other shooting objects except the target shooting object, displaying selection prompts of the other shooting objects so as to prompt a user to reselect the other shooting objects as the target shooting objects.

5. The method of claim 1, the determining a target photographic subject in the photographic subject group in response to the photographic instruction for the photographic subject group being triggered, comprising:

responding to a shooting instruction of a shooting object group to be triggered, and displaying a selection interface of the shooting object group;

and determining the shooting object indicated by the second selection instruction as the target shooting object according to the second selection instruction input by the user through the selection interface.

6. The method of claim 1, applied to a dispensing end; the determining a target photographic subject in the photographic subject group in response to a photographic instruction for the photographic subject group being triggered includes:

displaying an input function for inputting a non-delivery capacity responsibility event for delivery capacity;

and acquiring the event category input by the delivery capacity through the input function, triggering a shooting instruction of the shooting object group, and determining a target shooting object based on the event category.

7. An image capturing apparatus mounted in a delivery terminal, the apparatus comprising:

the determining module is used for determining a target shooting object in the shooting object group and calling a shooting component to enter a viewing interface in response to a shooting instruction of the shooting object group being triggered;

the rendering module is used for rendering a target element on the framing interface based on the target shooting object attribute so as to display the target element on the framing interface;

the detection module is used for detecting a target object on the view-finding interface based on the target shooting object attribute;

and the shooting module is used for responding to the triggering of the shooting button, using a current-moment view finding interface as a target shooting object image, determining a target shooting object to be shot in the shooting object group and reentering the view finding interface until the shooting of all the shooting objects in the shooting object group is completed.

8. An electronic device, the electronic device comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor, when invoking the executable instructions, implements the operations of any of the methods of claims 1-6.

9. A computer program product comprising a computer program which, when executed by a processor, carries out the steps of the method according to any one of claims 1 to 6.

10. A computer readable storage medium having stored thereon computer instructions which, when executed, perform the method of any of claims 1-6.

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