A multi-selection shutter camera application that selectively sends images to different artificial intelligence platforms.
The multi-selection shutter camera application with AI analysis addresses the inefficiency of current smartphone camera apps by providing a unified interface for image processing and sharing, enhancing user experience through intelligent content adaptation.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- CRYSTAL LAGOONS TECH INC
- Filing Date
- 2023-12-22
- Publication Date
- 2026-07-07
AI Technical Summary
Current smartphone camera applications lack the ability to intuitively recognize and adapt to the user's intent for captured media content, requiring users to manually identify and switch between multiple applications for different uses, such as sharing or information retrieval, which is inefficient and lacks centralized functionality.
A multi-selection shutter camera application that uses artificial intelligence to analyze captured images based on shutter type and image parameters, providing a unified interface with selectable options for sharing, discovery, and shopping functions, guiding content to appropriate platforms for user intent.
Enables efficient, centralized use of media content through a single application by intuitively suggesting actions and platforms based on user intent, enhancing user experience and functionality for image capture and processing.
Smart Images

Figure 2026522254000001_ABST
Abstract
Description
Technical Field
[0001] Reference to Related Applications This application was filed as a PCT international application on December 22, 2023, claiming the benefit and priority of U.S. Patent Application No. 63 / 508,749, filed on June 16, 2023, and claiming the benefit of U.S. Patent Application No. 18 / 472,900, filed on September 22, 2023, the disclosures of which are hereby incorporated by reference in their entirety.
[0002] Field of the Invention The present disclosure provides a multi - selection shutter camera application in an electronic device, selectively transmits images and other media content captured by the application to different innovative platforms based on artificial intelligence, and presents a series of options for selected shutters and based on image types and information (especially geographical location, capture time, content, etc.) for specific purposes such as high - speed sharing and / or information providing purposes among several applications.
Background Art
[0003] Background of the Invention With the rapid spread of electronic devices such as mobile electronic devices, people use such electronic devices daily to capture and share images (and other media content). Electronic devices such as mobile phones are increasingly used to capture and display various media content including photos and videos.
[0004] In recent years, due to significant improvements in processors, functions, and capabilities, the difference in use between digital cameras and mobile phone cameras has been shrinking little by little every day. Given that the cameras of smartphones are simple, easy to use, convenient, within reach, quickly used, and the final quality of the content is never inferior to conventional digital cameras, they have become one of the most popular ways in the world to capture media content such as photos and videos, from something new.
[0005] In 2015, smartphone sales surpassed traditional camera sales, and the trend has become even more extreme since then. The phrase made famous by Chase Jarvis, the icon of the iPhone, is "The best camera is the one you have." This phrase highlights the convenience of having a camera function readily accessible to users for everyday and frequent content capture—in this case, on a smartphone.
[0006] The rapid rise of smartphone photography technology has not only extended to the same level of photography as digital cameras, but users worldwide are now taking pictures of themselves, social activities, sports, food, documents, things they want to remember later, favorite colors, books they've read, memorable sentences, seasonings they've tasted, products they want to buy later, and many other uses that can be expressed in a single photograph. The sheer volume of such subjects and topics far exceeds and differs from the uses given to photography using digital cameras.
[0007] Today, users have many options for using such images / photos they have captured, and this is especially true because the capture function is now on the same smartphone, allowing them to share content, explore information, purchase products, read reviews, and ask for help—uses that were not previously an option or at least not easy to do, such as downloading photos to a different electronic device in order to use them. Previously, doing anything with photos captured on a digital camera generally required a lot of effort and a complex series of steps, but these can be done more efficiently by using a smartphone.
[0008] However, while the actual process of capturing media content can be found within a smartphone, recognizing and identifying the user's intent regarding such content is not a simple task today and generally requires several steps performed within different applications on the smartphone.
[0009] Today, there are no applications that can capture media content such as photos and use it for various purposes or functions based on the user's intent. The native camera application on a smartphone is generally just a camera that allows content to be captured, and all content is stored within the same platform, after which the user needs to identify and use that content based on their intent. For example, a mother who has taken a picture of her child wants to share that picture with her family. This means she must use a third-party application to share that picture with her contacts. However, if the same mother wants to capture an image of a flower she saw in her garden to find out its name or learn more about it, she must find out which application to download and use, and upload the picture to get the desired information. In the same context, if the same mother has taken a picture of her favorite laundry detergent and wants to find out where / how to buy that product, she must find out which other application to download and use to upload the picture and get the desired information related to purchasing the product (or simply read reviews or information related to the product).
[0010] Today, there is no centralized application that enables the selective capture of media content and identifies the purpose of that content to help users adapt it to the intent for which it was captured.
[0011] Furthermore, the design and functionality of camera applications have remained largely unchanged for many years. Traditional camera functions essentially consist of two elements: a screen for displaying live content that can be captured through the camera lens, and a shutter button for capturing that content. However, there have been no improvements or innovations regarding the appearance or functionality of such media capture screens. Today, there are no selective or intelligent cameras with different features that allow for the distinction of context in which a photograph is being taken in order to determine how the photograph will be used based on the user's intent.
[0012] The aspects of this disclosure are implemented in this general technical context, and the aforementioned innovative improvements that drive a revolution in image and content communications are described below. [Overview of the project] [Means for solving the problem]
[0013] overview This disclosure relates to a method and application for providing a multi-selection shutter camera application within an electronic device, selectively transmitting images and other media content captured by the application to different artificial intelligence and innovative platforms, and presenting a set of options depending on the selected shutter and image type and information (in particular geographical location, capture time, content analysis) for several applications, particularly for high-speed sharing and / or information provision purposes.
[0014] More specifically, the artificial intelligence system processes images according to the selected shutter, image type, and information (particularly geographical location, capture time, and content analysis), presenting a range of user-selectable options on the same screen for purposes such as rapid sharing and / or information provision. This fast, simple, and innovative platform with intelligent image capture and processing will transform how images are used, revolutionizing many areas such as sharing images with contacts, social media, shopping, and obtaining information about the world around us.
[0015] This disclosure aims to provide an application that selectively captures media content and can identify the purpose of such content to help the user adapt the content to the intent for which it was captured. This innovative application provides an intelligent multi-selection shutter interface that guides the captured media content to an artificial intelligence platform, which then processes the content as the image is captured with the selected capture button and suggests a set of choices and / or options based on the user's intent. Thus, this disclosure represents a significant innovation over current methods and applications, enabling the centralization of the use of media content such as photographs for many purposes through a single application that intuitively suggests choices / options / actions related to media content such as photographs based on the user's intent. [Brief explanation of the drawing]
[0016] Description of the drawing [Figure 1] One embodiment of the present invention is shown, which is an electronic device (400) corresponding to a mobile phone, particularly a smartphone, having a display (410) having a touch-sensitive surface. [Figure 2] One embodiment of the present invention is shown, which is an electronic device (400) corresponding to a mobile phone, particularly a smartphone, having a touch-sensitive display (410), and a capture screen (100) is presented on the display (410). The capture screen (100) includes a multi-shutter view and live view block (120) having a plurality of selective capture buttons (110) such as a shutter. [Figure 3]One embodiment of the present invention is shown, which is an electronic device (400) for a mobile phone, particularly a smartphone, having a touch-sensitive display (410), and a capture screen (100) is presented on the display (410). The capture screen (100) includes a multi-shutter view and live view block (120) having a plurality of selective capture buttons (110) such as a shutter, and the user performs an input action (200) such as tapping on the selected selective capture button (110). [Figure 4] One embodiment of the present invention is shown, which is an electronic device (400) corresponding to a mobile phone, in particular a smartphone, having a touch-sensitive display (410), and a content screen (300) is presented on the display (410). The content screen (300) includes a set of choices and / or options (310), in particular websites, applications, contacts, etc., provided by an artificial intelligence system based on a selected capture button and the type and information (in particular geographical location, capture time, content, etc.) of media content (130). [Modes for carrying out the invention]
[0017] Description of the Invention As described below, the application describes a method, software, e.g., “Application”, and / or apparatus that can incorporate selective media capture functionality by a multi-select shutter camera application, enabling the use of mobile devices such as smartphones in an intuitive and innovative manner, and by using artificial intelligence to easily adapt to the user’s intent in photographs by selectively capturing and displaying the best platform related to photographs and their purposes.
[0018] This innovative application and system provides an intelligent multi-selection shutter interface that guides captured media content to an artificial intelligence platform, which then uses the innovative platform to process the content as it captures an image with a selected capture button and suggests a series of choices and / or options based on the user's intent. Thus, this disclosure represents an improvement over current methods and applications, enabling the centralization and promotion of the use of media content such as photographs for many purposes through a single application that intuitively suggests choices / options / actions related to media content such as photographs, based on the user's purpose, and which are displayed on the same screen as the captured content.
[0019] In a first embodiment of the present invention, a method is provided that is performed by an electronic device having a touch-sensitive display, such as a smartphone, where the user intends to capture media content such as an image to suit a purpose, and the user is presented with a capture screen (100) having a multi-selection shutter view, the capture screen including at least two selective capture buttons (110) as shown in Figure 1, and at least one live view block (120) that displays content that can be captured by the at least two selective capture buttons (110), such as an independent shutter. The user then performs an input action (200), such as a tap, on at least one of the selective capture buttons (110), thereby providing the application with input to capture the media content (130) and triggering the display to show a content screen (300), the content screen displays different options based on artificial intelligence analysis of the captured media content (130).
[0020] In this first embodiment of the present disclosure, a method is performed by an electronic device, the electronic device (400) comprising a display (410) incorporating a touch-sensitive surface (411) and at least one processor, the method is a) Presenting a capture screen (100) on a display (410) having a multi - selection shutter view, wherein the content screen includes at least one live - view block (120) and at least two selective capture buttons (110) such as a shutter for capturing media content, presenting; b) Receiving an input action (200) such as a tap on at least one of the selective capture buttons (120), wherein the input action provides an input at at least one selective capture button, and the selective capture button is intended to capture media content and direct the captured content to an artificial - intelligence platform to provide various uses and / or information to the user, receiving; c) Capturing media content (130) by the input action (200) from step b), such as a tap on the shutter button, and saving the content within an electronic device (400) or a cloud - based application; d) Responsive to the input action (200), selectively transmitting the media content (130) to an artificial - intelligence platform, wherein the artificial - intelligence platform i. Processes information of the captured media content (130) based on the selected selective capture button (110) used to capture the media content (130); ii. Processes the media content (130), analyzes the media content (130) by parameters (especially geographical location, capture time, content of the photo, etc.), and shows the user appropriate options that match the purpose of the captured content (130) within the same screen where the captured content (130) is displayed; The artificial - intelligence platform selectively transmits, providing output information for presenting a content screen (300) to the user; e) Presenting a content screen (300) for displaying the content generated by the artificial - intelligence platform from step d), wherein the content screen (330) is not limited to this only; A. Options of a discovery function that presents information related to captured content (130), such as websites, applications, contacts, and / or media content. B. Options of a shopping function, such as websites, applications, contacts, media content, and / or information related to captured content (130). C. Options of a sharing function, such as combinations and options for easily sharing the photo with other users and / or social media platforms as intended by the user based on the captured content (130). Presenting a plurality of selectable options and alternatives related to the intention of the user to capture the selected shutter and content, including uses related to at least one of the above. Including.
[0021] As described in the following sections, options A, B, and C related to the content screen are provided in more detail along with their uses and functions.
[0022] The method of the present disclosure can be integrated into the user interface of an electronic device (400) and / or the entire third - party application (not a native application) installed in the device. In particular, the method of the present invention can be implemented in a mobile application or utility that can be installed on a mobile device, that is, a third - party application. The method of the present invention may be further or alternatively implemented by the native user interface of the mobile device.
[0023] The methods and applications of this disclosure include camera functions, and the methods performed by the electronic device include the use of camera functions configured to capture media content, and the electronic device includes camera hardware and software for this purpose. When used herein, camera functions include camera applications and / or capture processes that enable access to and use of camera hardware within the electronic device for capturing media content. Camera hardware includes various types of lenses and sensors incorporated into the electronic device.
[0024] In one embodiment, the capture screen (100) utilizes the camera function of an electronic device such as a smartphone to display a live view block (120) of the content that can be captured. In such an embodiment, the application of the Disclosure integrates the functions of the smartphone's native camera function and enables the use of such functions to visualize and capture media content captured by the smartphone's camera hardware and / or software.
[0025] In a preferred embodiment, the application of the present disclosure is a camera application, and the camera application is a third-party application and not a native camera application of the electronic device.
[0026] As used herein, the live view block (120) refers to at least a portion of the capture screen (100) that displays live stream content that the user can capture. The dimensions and proportions of the live view block can be customized by the user and may be adapted depending on the number of selective capture buttons (110) displayed on the capture screen (100).
[0027] When used herein, the selective capture button (110) includes a defined selection area within the display of an electronic device, which is intended to capture media content, process the content, and receive input for downloading it into an electronic device or cloud-based application. The selective capture button can be selected from a group that includes, among other things, a shutter button or an area configured to receive an input action.
[0028] In one embodiment, a separate folder is created within the camera roll or photo view application of an electronic device, and the folder displays media content (130) captured by the method and application of the Disclosure. In one embodiment of the present invention, tapping an image in the separate folder displays multiple options of the AI platform, so that the user can select which one to use for processing, and relevant options can be displayed based on the user's selection.
[0029] Media content that can be captured by the application includes, but is not limited to, photos and videos.
[0030] The electronic device (400) according to the present invention may be any electronic device that enables electronic communication between different devices, but is preferably selected from mobile phones such as smartphones. In certain preferred embodiments, the electronic device includes a touch-sensitive surface (411).
[0031] When used herein, an input action (200) includes one or more actions and / or movements performed by the user, which may be selected from the group including, among other things, at least one of touches, clicks, taps, swipes, flicks, flings, or grabs (e.g., “pinch”) of part of an interface provided for display on a display screen, and combinations thereof. An input action (200) may be an action or pressure made by the user’s hand or finger that is detected by an electronic device, for example, by contact with a touch-sensitive surface (411) or with hardware such as a physical button. Thus, an input action can be a physical action performed by the user and may include one or more characteristics such as direction, pressure, and duration related to contact with the touch-sensitive surface. In one example, an input action may include a single tap, a single touch, one or more consecutive taps in the same or different areas, simultaneous taps or touches in the same or different areas, simultaneous rapid taps or touches in the same or different areas, repeated taps or touches in the same or different areas, and combinations thereof. In one embodiment, a user may perform multiple input actions.
[0032] The method of this application uses artificial intelligence programmed to detect and analyze the content of a photograph, learning in particular from the user's past input actions, searches, interests, interactions with the web and other applications, and messaging patterns. The artificial intelligence system can also perform a photographic analysis to detect and analyze any elements, text, symbols, logos, colors, textures, or other parameters within the photograph. In addition, the artificial intelligence platform can perform a photographic analysis based on the georeferenced location (geographic location) of the photograph, which may help identify the user's intent when the photograph was taken. The artificial intelligence system can also perform a photographic analysis based on the time of capture and / or the time the user is using the application of this disclosure.
[0033] The artificial intelligence platform is paired with user selection based on a multi-selection shutter option found within the display. In an innovative and novel way, the smartphone screen of the present application displays an innovative multi-selection shutter view, which includes at least two different separate selective capture buttons, such as a shutter, that allow the user to capture a photograph according to the intent and purpose the user wants to give to the photograph. This is a novel feature developed in the context of the present disclosure, which allows an application to selectively capture an image and then process that information using artificial intelligence to suggest appropriate choices and options related to the original intent for capturing the photograph.
[0034] This is all accomplished through an innovative multi-selection shutter view, where different selective capture buttons have different functions that can be predefined within the application, or that can be changed manually or automatically based on a series of inputs.
[0035] Discovery function In one embodiment of the present invention, at least one of the selective capture buttons acts as a discovery shutter related to the discovery function, the discovery shutter being a shutter that, when a user takes a photograph using the button, the application selectively transmits the image and information to an artificial intelligence platform, which can analyze the image information (as described above) and interact with the web and its own learning patterns to suggest the best application, website, or function related to the photograph. Thus, the discovery function is related to providing information / operations related to the photograph captured through the discovery shutter, as intended by the user.
[0036] Examples of the discovery function include, but are not limited to, searching for information about elements, text, symbols, logos, colors, textures, or other features recognized in a photograph, and suggesting a set of websites, applications, or actions related to such features. For example, if a user uses the discovery shutter to take a picture of the Eiffel Tower in Paris, France, the application may identify the Eiffel Tower as the main element and suggest websites or applications from among many options that specifically show historical information about the Eiffel Tower, websites or applications that help book tours to the Eiffel Tower or other alternative destinations, websites or applications that suggest other activities to do near the Eiffel Tower, and websites or applications that suggest alternative dining options near the Eiffel Tower.
[0037] When a user captures a photograph using the discovery shutter, the user selectively intends to use the content of that photograph to explore further information or activities related to the summary of the captured photograph. Therefore, the artificial intelligence platform processes the captured photograph based on the selected selective capture button and provides output information to present the user with a dynamic content screen that automatically rearranges discovered and suggested websites and / or applications related to the information and / or activities based on that photograph. When used herein, the options of the discovery function include, but are not limited to, websites, applications, contacts, media content, and / or information related to the captured content (130) in the context of the discovery function.
[0038] Shopping function In one embodiment of the present invention, at least one of the selective capture buttons acts as a shopping shutter related to a shopping function, the shopping shutter being a shutter that, when a user takes a photograph using the button, the application selectively transmits the image and information to an artificial intelligence platform, which can analyze the image information (as described above) and interact with the web and its own learning patterns to suggest the best application, website, or function related to the photograph. Thus, the shopping function is related to providing information / operations related to the photograph captured through the shopping shutter, as intended by the user.
[0039] Examples of shopping functionality include, but are not limited to, searching for information about products, services, elements, text, symbols, logos, colors, textures, or other features visible in a photograph, and suggesting a set of websites, applications, or operations related to those features in a shopping context. For example, if a user uses the shopping shutter to take a picture of a water bottle they like and want to find out more about possibly purchasing that water bottle or reading reviews of it, the application could identify that the main element of the photograph is the water bottle and suggest websites or applications that show places where the water bottle (or similar) can be purchased near the user's georeferenced location, suggest websites or applications that show reviews of the water bottle (and similar) so the user can make an informed decision, and suggest websites or applications that show where to buy the water bottle online and compare prices.
[0040] When a user captures a photograph using the shopping shutter, the user selectively intends to use the content of that photograph for shopping-related purposes, and therefore the artificial intelligence platform processes the captured photograph based on the selected selective capture button and provides output information to present the user with a dynamic content screen that automatically reorders discovered and suggested websites and / or applications related to the shopping process. When used herein, the shopping function options include, but are not limited to, websites, applications, contacts, media content, and / or information related to the captured content (130) in the context of the shopping function.
[0041] Share function In one embodiment of the present invention, at least one of the selective capture buttons acts as a sharing shutter related to a sharing function, the sharing shutter being a shutter that, when a user takes a photograph using the button, the application selectively transmits the image and information to an artificial intelligence platform, which can analyze the image information (as described above) and interact with the web and its own learning patterns to suggest an easy and intuitive way to share the photograph based on the user's intent. Thus, the sharing function relates to providing the best combination and options for easily sharing the photograph with other users and / or social media platforms as the user intends.
[0042] The sharing function uses artificial intelligence, primarily learned through machine learning and other methods from the user's past input actions, interactions with other applications, and messaging patterns and content, to suggest and display a set of recipients / communication channels and / or social media platforms. In this embodiment, the use of artificial intelligence as described above helps to identify the best combination of recipients and communication channels that are intuitively good candidates for receiving the content the user intends to share, based on the user's past communications and patterns. For example, if a user takes a picture of a legal document with a sharing shutter and wants to quickly share it with their lawyer, the artificial intelligence platform detects the content of the photo and, based on past messaging patterns and analysis, suggests to the user that they share the photo with a lawyer to whom photos of this type of legal document are typically sent.
[0043] When a user captures a photograph using the shared shutter, the user selectively intends to share that photograph with other users and / or social media platforms. Therefore, the artificial intelligence platform processes the captured photograph based on the selected selective capture button and provides output information to present the user with a dynamic content screen that automatically rearranges recipients and / or social media platforms so that the user can quickly select recipients of the photograph. When used herein, the sharing options include, but are not limited to, combinations and choices for easily sharing the photograph with other users and / or social media platforms as the user intends based on the captured content (130).
[0044] For example, if a user regularly sends bird photos to one of their contacts who is a birdwatcher, when the user takes a photo of a bird, the AI platform should analyze the photo, determine that it is a bird, and suggest that contact as the recipient of the photo. To do this, the AI platform should learn from the user's past interactions and from analyzing photos shared by the user and with various recipients in order to suggest the most suitable contact for sharing.
[0045] Example I As an exemplary embodiment of the present invention relating to the discovery function, the method according to the present invention is implemented by a mobile device such as a smartphone, and the user wishes to capture an image with the smartphone's camera and use that image to obtain information related to the photograph.
[0046] The user accesses an application of the present disclosure which displays a capture screen (100) on a display (410), the capture screen having a multi-selection shutter view having three separate shutters having different functions: one discovery shutter, one shopping shutter, and one shared shutter.
[0047] The user then aligns the content to be captured (the image to be captured) and performs an input action (200) by tapping on the discovery shutter, thereby capturing the content and storing it in the electronic device, as well as transmitting the image for processing through the artificial intelligence platform related to the discovery function.
[0048] Such input actions provide input to the application, and the image is shared with an artificial intelligence system that analyzes and processes the image based on the user's interactions with other users and / or applications, sharing patterns, frequency of communication and / or interactions with other users and / or platforms, information about the media content (text, elements, people, colors, textures, etc.), and the geographical location of the content.
[0049] Next, in response to processing by the artificial intelligence system, the smartphone displays a content screen (300) that presents the user with multiple selectable options and choices related to discovery functions such as websites, as well as multiple applications that enable the user to obtain information related to the captured photograph.
[0050] Example II As illustrated by the following exemplary embodiments of the present invention, the present invention, through an innovative platform using artificial intelligence, will change the way people use and exchange information such as images, and how images are used to have a global impact on the use of images for many purposes in a unified and innovative way.
[0051] As an exemplary embodiment of the present invention relating to the discovery function, the method according to the present invention is implemented by a mobile device such as a smartphone, and the user wishes to capture an image with the smartphone's camera and use that image to obtain information related to the photograph.
[0052] A user is walking down the street and encounters a rare insect and wants to know its species and scientific name. The user accesses the application of this disclosure which displays a capture screen (100) on a display (410), the capture screen (100) having a multi-selection shutter view having three separate shutters (110) having different functions: one discovery shutter, one shopping shutter, and one shared shutter. The user captures a photograph of the insect through the content screen by tapping the discovery shutter to activate the discovery function. The photograph of the insect is then sent to an artificial intelligence platform, which analyzes the content of the photograph (including, among other things, its geographical location, time of capture, and photographic content) and provides output of suggestions to the user displayed within the content screen (300). The content screen then displays the photograph and several options for obtaining information such as websites listing various types of insects and their names, applications that help the user learn about the specific insect that was photographed, and websites showing information about other countries where the insect may be found.
[0053] The user then continues walking, sees an accident happening nearby, and wants to share the image with a close friend. The user then uses the share shutter to capture a photo, activating the sharing function. The accident photo is then sent to an artificial intelligence platform, which analyzes the photo's content (including its geographical location, capture time, and photo content) and provides output for user suggestions displayed within a content screen (300). The content screen then displays the photo, along with the user's contacts who might be interested in sharing the photo based on past sharing history, and several combinations and options for easily sharing the photo. For example, the content screen might display the user's frequently used contacts and their associated communication channels near the photo, allowing the user to quickly select who to share the photo with, and the photo is then shared with those contacts.
[0054] The user then continues walking, enters a restaurant for dinner, orders a very fancy-looking steak dinner, and wants to share it on a social media platform. The user then uses the share shutter to capture a photo of the plate, activating the sharing function. The photo of the plate is then sent to an artificial intelligence platform, which analyzes the photo's content (including, among other things, its geographical location, time of capture, and the photo's content) and provides output of suggestions to the user displayed within a content screen (300). The content screen then displays the photo of the plate and several combinations and options for easily sharing the photo with social media platforms such as Instagram, based on past sharing history. For example, the content screen might display the user's frequently used social media applications near the photo, allowing the user to quickly select an application and upload the photo quickly.
[0055] Finally, the user enjoys the wine with their meal and wants to know where to buy it. The user then uses a shopping shutter to capture a photo of the wine bottle, activating the shopping function. The photo is then sent to an artificial intelligence platform, which analyzes the photo's content (including its geographical location, capture time, and photo content) and provides output for user suggestions displayed within a content screen (300). The content screen then displays the wine photo along with multiple combinations and options indicating places near the user's current location where they can purchase the wine, as well as information and reviews about the wine. For example, the content screen might display websites and / or applications where the user can purchase the wine online, websites of nearby supermarkets that stock the wine, and a wine review application providing further information and reviews about the wine.
[0056] In this way, this application unifies various options and functions in a simple manner by using multi-selection shutter view and artificial intelligence, enabling an innovative platform that can change people's lifestyles and how people use images around the world.
[0057] As mentioned above, all of these options, as shown in the different functions, also come from an artificial intelligence platform programmed to detect and analyze the content of photographs and learn, in particular, from the user's past input actions, searches, interests, interactions with the web and other applications, and messaging patterns. The artificial intelligence platform can also perform photographic analysis to detect and analyze any elements, text, symbols, logos, colors, textures, or similar parameters within the photograph. In addition, the artificial intelligence platform can perform photographic analysis based on the georeferenced location of the photograph, which may help identify the user's intent when the photograph was taken. Furthermore, the artificial intelligence system can perform photographic analysis based on the time of capture and / or the time the user is using the application of this disclosure.
Claims
1. A multi-selection shutter camera application and method for selectively transmitting images to different artificial intelligence and innovative platforms for high-speed sharing and information provision purposes, which is performed by an electronic device, the electronic device (400) including a display (410) incorporating a touch-sensitive surface (411) and at least one processor, a) Presenting a capture screen (100) on the display (410) having a multi-shutter view, wherein the content screen includes at least one live view block (120) and at least two selective capture buttons (110), such as shutters, for capturing media content. b) Accepting an input action (200), such as a tap, on at least one of the selective capture buttons (120), wherein the input action provides input to the at least one selective capture button, and the selective capture button is intended to capture media content and guide the captured content to an artificial intelligence platform to provide the user with various uses and / or information. c) capturing media content (130) by the input action (200) from step b), such as tapping on the shutter button, and saving the content in the electronic device (400) or a cloud-based application. d) In response to the input action (200), selectively transmit the media content (130) to an artificial intelligence platform, wherein the artificial intelligence platform i. Processing information of the captured media content (130) based on the selected selective capture button (110) used to capture the media content (130), ii. Process the media content (130), analyze the media content (130) using parameters (particularly geographical location, capture time, photographic content, etc.), and present to the user appropriate options suitable for the purpose of the captured content (130) on the same screen where the captured content (130) is displayed. The artificial intelligence platform selectively transmits output information for presenting a content screen (300) to the user. e) Presenting a content screen (300) that displays the content generated by the artificial intelligence platform from step d), the content screen (330) is not limited to this, A. A selection of discovery functions that present information related to the aforementioned supplemental content (130), such as websites, applications, contacts, and / or media content. B. Shopping options such as websites, applications, contacts, media content and / or information related to the supplemental content (130), C. Options for sharing functions, such as combinations and choices, for easily sharing the photo with other users and / or social media platforms as intended by the user based on the captured content (130). Displaying, presenting, and showing multiple selectable options and choices related to the user's selected shutter and intention to capture the content, including uses relating to at least one of the above. Methods that include...
2. The method according to claim 1, wherein the application is integrated into the user interface of the electronic device (400) and / or into a third-party application (not a native application) installed within the device.
3. The method according to claim 1, wherein the application is a camera application.
4. The method according to claim 1, comprising a camera function configured to capture media content, wherein the electronic device (400) includes camera hardware and software for this purpose.
5. The method according to claim 4, wherein the camera function includes a camera application and / or capture process that enables access to and use of the camera hardware within the electronic device (400) for capturing media content.
6. The method according to claim 4, wherein the camera hardware includes various types of lenses and sensors incorporated into the electronic device.
7. The method according to claim 1, wherein the live view block (120) refers to at least a portion of the capture screen (100) that shows the live stream content that the user can capture, and the dimensions and proportions of the live view block can be customized by the user and may be adapted in accordance with the number of selective capture buttons (110) displayed on the capture screen (100).
8. The method according to claim 1, wherein the selective capture button (110) includes a defined selection area in the display of the electronic device, which is intended to capture the media content, process the content, and receive input for downloading it into the electronic device or a cloud-based application.
9. The method according to claim 1, wherein the selective capture button (110) is selected from the group including, in particular, a shutter button or an area configured to accept an input action (200).
10. The method according to claim 1, wherein the media content that can be captured by the application includes, but is not limited to, photographs or videos.
11. The method according to claim 1, wherein a separate folder is created in the camera roll or photo view application of the electronic device, and the folder displays the media content (130) captured by the capture screen (100).
12. The method according to claim 11, wherein by tapping an image or other media content (130) in the separate folder, multiple options of the artificial intelligence platform are displayed, so that the user can select which one to use for processing, and relevant options are displayed based on the user's selection.
13. The method according to claim 1, wherein the electronic device (400) is a mobile phone such as a smartphone and includes a touch-sensitive surface (411).
14. The method according to claim 1, wherein the input action (200) includes one or more actions and / or actions performed by the user, which may be selected from the group including at least one of touching, clicking, tapping, swiping, flicking, flinging, or grasping (e.g., “pinching”) a part of an interface provided for display on a display screen, and combinations thereof.
15. The method according to claim 1, wherein the input action (200) includes an action or pressure made by the user's hand or finger, which is detected by the electronic device, for example, by contact with the touch-sensitive surface (411) or with the hardware such as a physical button.
16. The method according to claim 1, wherein the artificial intelligence platform is programmed to detect and analyze the content of the captured content (130) and to learn from the user's past input actions, searches, interests, interactions with the web and other applications, messaging patterns, and combinations thereof.
17. The method according to claim 1, wherein the artificial intelligence platform is configured to perform an analysis of the media content and to detect and analyze any elements, text, symbols, logos, colors, and textures based on the georeferenced location (geographic location) of the media content, the capture time and / or the time the user is using the application of the present disclosure, and a combination thereof.
18. The method according to claim 1, wherein the different selective capture buttons (110) have different functions that can be predefined within the application, or different functions that can be changed manually or automatically based on a series of inputs.
19. The method according to claim 1, wherein at least one of the selective capture buttons (110) operates as a discovery shutter related to the discovery function.
20. The method according to claim 19, wherein the discovery shutter is a shutter to which the application selectively transmits the image and information to the artificial intelligence platform when the user takes a photograph using the button, and the artificial intelligence platform processes the image to suggest the best application, website, or function related to the photograph, and interacts with the web and its own learning patterns.
21. The method according to claim 1, wherein at least one of the selective capture buttons (110) operates as a shopping shutter related to the shopping function.
22. The method according to claim 19, wherein the shopping shutter is a shutter that, when the user takes a photograph using the button, the application selectively transmits the image and information to an artificial intelligence platform, the artificial intelligence platform can analyze the information of the image to suggest the best application, website, or function related to the photograph, and can interact with the web and its own learning patterns.
23. The method according to claim 1, wherein at least one of the selective capture buttons (110) operates as a shared shutter related to the sharing function.
24. The method according to claim 19, wherein the shared shutter is a shutter that, when the user takes a photograph using the button, the application selectively transmits the image and information to an artificial intelligence platform, the artificial intelligence platform can analyze the information of the image (as described above) and interact with the web and its own learning patterns in order to propose an easy and intuitive way of sharing the photograph based on the user's intention.