Detailed Description
The present disclosure is described in further detail below with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the related invention are shown in the drawings.
It should be noted that, in the present disclosure, the embodiments and features of the embodiments may be combined with each other without conflict. The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.
FIG. 1 illustrates a block diagram of one embodiment of a virtual shelf display system of the present disclosure. As shown in FIG. 1, a virtual shelf display system includes a sensing component 110, a display component 120, and a control component 130.
In the present embodiment, the sensing component 110 is configured to collect user information and transmit the collected user information to the control component 130, wherein the user information includes distance information of the user from the display component 120.
In particular, the sensing component 110 may be a device for measuring distance in the prior art or in the future, which is not limited in this application. For example, the sensing center may be an ultrasonic sensor, a laser rangefinder, an infrared rangefinder, or the like.
The sensing component 110 may be disposed in front of the display component 120 and have a short distance from the display component 120 for collecting information about the distance from the display component 120 of the user. The sensing component 110 respectively collects the distance between itself and the display component 120 and the distance between itself and the user, and the distance information between the user and the display component 120 can be calculated based on the two distances.
The display assembly 120 may include a preset number of side-by-side display screens 121 configured to display an operation guidance animation.
Specifically, the display assembly 120 may be composed of a preset number of display screens 121 arranged side by side, and the number and the shape of the display screens 121 are not particularly limited in the present application. Illustratively, reference may be made to FIG. 2, which illustrates one embodiment of a display assembly 120, such as FIG. 2. In the embodiment shown in fig. 2, the display assembly 120 consists of 3 rectangular display screens 121 side by side. It will be understood by those skilled in the art that fig. 2 is merely one specific example of a display assembly 120 and is not intended to represent a limitation of the present application. For example, the number of the display screens 121 in fig. 2 is 3, and other numbers are also possible, and the shape of the display screens 121 may be rectangular, circular, oval, or other predetermined shapes.
Returning to fig. 1, the display component 120 is configured to receive animation display information sent by the control component 130 and display the animation display information through a preset number of display screens 121, when the display component 120 displays an operation guidance animation, each display screen 121 may display a different operation guidance animation or may display the same operation guidance animation together, which is not specifically limited in this application.
And the control component 130, in response to receiving the distance information, wherein the distance information is less than or equal to the preset distance, generates animation display information, and controls the display component 120 to display the operation guidance animation based on the animation display information.
Specifically, the control component 130 receives the distance information sent by the sensing component 110, and then determines whether the distance information is less than or equal to a preset distance: if the distance information is less than or equal to the preset distance, the control component 130 generates animation display information, transmits the animation display information to the display component 120, and controls the display component 120 to display the operation guidance animation. The preset distance may be a distance that is set in advance by the setter in the control component 130 to trigger the display of the guiding animation, and may be preset by a manager or a technician of the virtual shelf display system. When the user's distance from the display component 120 is less than or equal to a preset distance, a display guidance animation is triggered.
In a specific example, the preset distance may be set to 3 meters, and when the sensing component 110 acquires that the distance from the user to the display component 120 is less than or equal to 3 meters, the control component 130 controls the display component 120 to display the operation guidance animation.
The control component 130 may be an integrated circuit board in the prior art or in the future, which is not limited in this application. For example, the control component 130 may be implemented using an integrated circuit board integrated with a CPU processor, an FPGA processor, a DSP processor, an ARM processor, or other control chip. In one particular example, the control component 130 can be implemented using a RK3399 development board. The control component 130 may process the received user information based on a preset display content calling algorithm, and display a pre-stored operation guidance animation corresponding to the control display content in the display screen 121 of the display component 120 based on the display content indicated by the processing result. The operation guidance animation stored in advance may include picture information, price information, text information of the brief introduction, introduction information of the user gesture operation, and the like of the commodity.
The virtual shelf display system provided by the embodiment of the disclosure collects user information through the sensing component 110, wherein the user information includes distance information between a user and the display component 120, and sends the user information to the control component 130, then the control component 130 receives the user information, when the distance information received by the control component 130 is smaller than or equal to a preset distance, the control display component 120 displays an operation guiding animation, the display component 120 is composed of display screens with preset quantity, the virtual shelf display system can guide the user to interact with the virtual shelf display system, display massive commodities and share the commodities in an interactive manner, the interaction efficiency of the user and the virtual shelf display system is improved, and the efficiency of displaying the commodities by the virtual shelf display system according to the intention of the user is improved.
In some optional implementations of the present embodiment, the control component 130 may be further configured to: in response to receiving the first gesture operation information while the display component 120 displays the operation guidance animation, the display component 120 is controlled to display preset commodity information in different display manners based on the first gesture operation information.
Specifically, when the display module 120 displays the operation guidance animation, the sensing module 110 collects first gesture operation information of the user and sends the collected first gesture operation information to the control module 130, and after the control module 130 receives the first gesture operation information, the control module 130 controls a display mode of commodity information preset in the display module 120 based on the first gesture operation information and controls different display modes according to different first gesture operation information.
For example, if the control component 130 determines that the similarity between the first gesture operation information and the preset gesture operation information is higher than the preset value, the control component 130 may display a preset display mode corresponding to the preset gesture operation information at this time. Here, the corresponding relationship between the preset gesture operation information and the preset display mode may be a preset corresponding relationship, which is not limited in the present application.
In this implementation manner, the control component 130 controls the display component 120 to display the preset commodity information in different display manners based on the first gesture operation information, so that the preset commodity information can be displayed according to the first gesture operation information input by the user, the interaction capability of the virtual shelf display system and the user is improved, and the commodities displayed by the virtual shelf display system more conform to the interests of the user.
In some optional implementations of the present embodiment, the control component 130 is further configured to: in response to receiving the second gesture operation information while the display module 120 displays the preset commodity information, commodity display information is generated based on the second gesture operation information, and the display screens 121 are controlled to display commodity information corresponding to the second gesture operation information among the preset commodity information based on the commodity display information.
Specifically, when the control component 130 controls the display component 120 to display the preset commodity information in different display modes according to different first gesture operation information, the sensing component 110 collects second gesture operation information of the user and sends the collected second gesture operation information to the control component 130, after the control component 130 receives the second gesture operation information, each display screen 121 is controlled to display commodity information corresponding to the second gesture operation information in the preset commodity information based on the second gesture operation information, and each display screen 121 is controlled to display different corresponding commodity information according to different second gesture operation information.
For example, if the control component 130 determines that the similarity between the second gesture operation information and the preset gesture operation information is higher than the preset value, the control component 130 may display the preset commodity display information corresponding to the preset gesture operation information at this time. Here, the corresponding relationship between the preset gesture operation information and the preset commodity display information may be a preset corresponding relationship, which is not limited in the present application.
In this implementation manner, the control component 130 controls each display screen 121 to display different corresponding commodity information based on the second gesture operation information, and the preset commodity display information can be displayed according to the second gesture operation information input by the user, so that the interaction capability of the virtual shelf display system and the user is improved, the commodities displayed by the virtual shelf display system more conform to the interest of the user, and the interactive communication manner of the user is improved.
In some optional implementations of the present embodiment, the control component 130 is further configured to: in response to receiving the distance information and the distance information being greater than the preset distance and/or not receiving the distance information, the display component 120 is controlled to display the advertising information.
Specifically, when a user walks in front of the virtual shelf display system, the control component 130 receives the distance information sent by the sensing component 110, and then determines whether the distance information is greater than a preset distance: if the distance information is greater than the preset distance, the display component 120 is controlled to continue displaying the advertisement information.
When no user walks in front of the virtual shelf display system and the sensing component 110 does not collect distance information, the control component 130 controls the display component 120 to continue displaying advertisement information.
In this implementation, this virtual goods shelves display system can show advertising information, through adopting advertising information to attract the customer, improves the display efficiency of commodity.
Further, those skilled in the art will appreciate that in some cases, the control component 130 may also be configured to: the control component 130 may also control the display component 120 to not display anything when no person is walking about the virtual shelf display system or when the current time is in a non-working period. Here, whether the distance information between the user and the display component is greater than the preset distance or whether the current time is in the non-working period is judged, and when the judgment result indicates that the display is not needed, the display component 120 is controlled not to display any content, so that the virtual shelf display system is more intelligent, and the effect of saving electric energy is achieved.
Referring to fig. 3, fig. 3 shows a block diagram of another embodiment of the virtual shelf display system, which still includes a sensing element 110, a display element 120 and a control element 130, wherein the sensing element 110 may include a first sensing device 111 and a second sensing device 112.
The first sensing devices 111 are disposed in front of the respective display screens 121 of the display assembly 120, and configured to collect distance information of a user from the display assembly 120 and transmit the distance information to the control assembly 130.
Specifically, the first sensing device 111 may be a device for measuring distance in the prior art or in the future development, which is not limited in this application. For example, the first sensing device 111 may be an ultrasonic sensor, a laser range finder, an infrared range finder, or the like.
The first sensing devices 111 may be disposed in front of the respective display screens 121 of the display assembly 120 at a predetermined distance (a small distance, e.g., less than 0..05 meters) in order to collect the distance of the user from the first sensing devices 111 as the distance of the user from the display assembly 120. When the user approaches the display component 120, the first sensing device 111 collects distance information of the user from the display component 120 and transmits the collected distance information to the control component 130 in real time.
The second sensing device 112 covers each display screen 121 of the display assembly 120, and is configured to collect gesture operation information input by a user and send the gesture operation information to the control assembly 130.
Specifically, the second sensing device 112 may be a device used for collecting user operations in the prior art or in the future developed technologies, which is not limited in this application. For example, the second sensing device 112 may be an infrared touch screen, a capacitive touch screen, an array type micro sensor, and the like.
The second sensing device 112 covers each display screen 121 of the whole display assembly 120, and is configured to collect gesture operation information input by a user, and send the collected gesture operation information to the control assembly 130 in real time.
In some optional implementations of the present embodiment, the number of the ultrasonic sensors included in the first sensing device 111 may be the same as the number of the display screens 121, so that the distance from the user to each display screen 121 may be accurately obtained.
In some optional implementations of the present embodiment, the control component 130 is further configured to: the preset display mode of the commodity information is determined to be a split screen display mode or a linkage display mode based on the first gesture operation information received when the display component 120 displays the operation guidance animation.
Specifically, when the display component 120 displays the operation guidance animation, the second sensing device 112 collects first gesture operation information of the user in real time, and sends the first gesture operation information to the control component 130 in real time, after the control component 130 receives the first gesture operation information sent by the second sensing device 112 in real time, based on the first gesture operation information, it is determined that the input mode of the user is a local operation or a global operation, and when the input mode of the user is determined to be the local operation, the display mode of the preset commodity information is controlled to be a split-screen display mode; and when the input mode of the user is judged to be the global operation, controlling the display mode of the preset commodity information to be a linkage display mode.
In the implementation mode, the system judges the input mode of the user according to the first gesture operation information, and then controls different display modes of the preset commodity information, the preset commodity information can be displayed in different modes according to the intention of the user, and the display modes of commodity information diversification are realized.
In some optional implementations of the present embodiment, the control component 130 is further configured to: and in response to that the first gesture operation information is local operation, determining that the display mode of the preset commodity information is a split-screen display mode, and controlling different display screens 121 to display different preset commodity information based on the split-screen display mode.
Specifically, when the control module 130 determines that the input mode of the user is the local operation based on the first gesture operation information, and then determines that the display mode of the preset commodity information is the split-screen display mode, the control module 130 controls each display screen 121 to display different preset commodity information.
In a specific example, the second sensing device 112 collects user operation information applied to the second sensing device by the user, the user operation information includes a sliding distance and a sliding speed, and sends the sliding distance and the sliding speed to the control component 130 in real time, and the control component 130 determines whether the sliding distance is less than or equal to a preset sliding distance, and determines whether the sliding speed is less than or equal to a preset sliding speed: if the sliding distance is less than or equal to the preset sliding distance and the sliding speed is less than or equal to the preset sliding speed, it is determined that the input mode of the user is the local operation, where the preset sliding distance may be the width of a single display screen 121, and the preset sliding speed may be any value, which is not limited in the present application.
In the implementation mode, the system judges that the input mode of the user is local operation, and then controls the display mode of the preset commodity information to be split screen display, so that the preset commodity information is displayed according to the intention of the user, and the display mode of commodity information diversification is realized.
In some optional implementations of the present embodiment, the second sensing device 112 is further configured to: sending the collected second gesture operation information to the control component 130; the control component 130 is further configured to: in response to receiving the second gesture operation information when the different display screens 121 display different preset commodity information, the display component 120 is controlled to display the commodity information corresponding to the second gesture operation information in the preset commodity information.
Specifically, when each display screen 121 displays different preset commodity information, the second sensing device 112 collects second gesture operation information of the user, and sends the collected second gesture operation information to the control component 130 in real time, and the control component 130 controls the display component 120 to display commodity information corresponding to the second gesture operation information in the preset commodity information according to the received second gesture operation information.
Wherein the control component 130 is further configured to perform at least one of:
(1) in response to the received second gesture operation information being a click operation, the display component 120 is controlled to display detailed information of the current commodity.
Specifically, when the display component 120 displays the preset commodity information in a split-screen display manner, and when the second sensing device 112 collects a click operation of the user, the control component 130 controls the current display screen 121 to display detailed information of the current commodity.
(2) In response to the received second gesture operation information being a swipe-up operation, the display component 120 is controlled to display other commodity information.
Specifically, when the display module 120 displays the preset commodity information in a split-screen display manner, and when the second sensing device 112 collects the up-down sliding operation of the user, and the control module 130 determines that the sliding distance of the up-down sliding operation is smaller than the preset sliding distance and the sliding speed of the up-down sliding operation is smaller than the preset sliding speed, the control module 130 controls the current display screen 121 to switch the current commodity information and display other commodity information.
(3) And in response to the received second gesture operation information being a two-finger horizontal operation, controlling the display component 120 to display the cutting of the picture information and refresh the current commodity information.
Specifically, when the display module 120 displays the preset commodity information in a split-screen display manner, and when the second sensing device 112 collects the two-finger horizontal operation of the user, and the control module 130 determines that the sliding distance of the two-finger horizontal operation is smaller than the preset sliding distance and the sliding speed of the two-finger horizontal operation is smaller than the preset sliding speed, the control module 130 controls the current display screen 121 to cut the display frame information and refresh the current commodity information.
(4) And in response to the received second gesture operation information being a three-finger vertical operation, controlling the display component 120 to change the display style of the current commodity information.
Specifically, when the display module 120 displays the preset commodity information in a split-screen display manner, and when the second sensing device 112 collects the three-finger longitudinal operation of the user, and the control module 130 determines that the sliding distance of the three-finger longitudinal operation is smaller than the preset sliding distance and the sliding speed of the three-finger longitudinal operation is smaller than the preset sliding speed, the control module 130 controls the current display screen 121 to display the display style of the current commodity information after conversion.
In this implementation manner, when the display component 120 displays the preset commodity information in a split-screen display manner, the second sensing device 112 collects different gesture operations of the user on the preset commodity information and sends the gesture operations to the control component 130, and the control component 130 controls the display component 120 to display different contents according to the different gesture operations, so that the interactive communication manner between the user and the virtual shelf is improved.
In some optional implementations of the present embodiment, the control component 130 is further configured to: and in response to that the first gesture operation information is global operation, determining that the display mode of the commodity information is a linkage display mode, and controlling the display screens 121 to display the same preset commodity information or all the preset commodity information together based on the linkage display mode.
Specifically, when the control component 130 determines that the input mode of the user is the global operation based on the first gesture operation information, and then determines that the display mode of the preset commodity information is the linkage display mode, the control component 130 controls each display screen 121 to display the same preset commodity information or all the preset commodity information together.
In a specific example, the second sensing device 112 collects the sliding distance and the sliding speed of the user, and sends the sliding distance and the sliding speed to the control component 130 in real time, and the control component 130 determines whether the sliding distance is less than or equal to a preset sliding distance, and determines whether the sliding speed is less than or equal to a preset sliding speed: if the sliding distance is greater than the preset sliding distance and the sliding speed is greater than the preset sliding speed, it is determined that the input mode of the user is global operation, where the preset sliding distance may be the width of a single display screen 121, and the preset sliding speed may be any value, which is not limited in the present application.
In the implementation mode, the system judges that the input mode of the user is global operation, and then controls the display mode of the preset commodity information to be linkage display, so that the preset commodity information is displayed according to the intention of the user, and the display mode of commodity information diversification is realized.
In some optional implementations of the present embodiment, when the display component 120 collectively displays all of the preset merchandise information, the second sensing device 112 is further configured to: collecting user operation information input by a user in the current display screen 121, and sending the collected user operation information to the control component 130; the control component 130 is further configured to: in response to receiving user operation information when all the preset commodity information is displayed on each display screen 121, the user operation information indicates that the time for selecting the target commodity by the user is longer than the preset time, the target commodity is dragged to the target display screen 121 from the original display screen 121, and the target display screen 121 is controlled to display the target commodity.
Specifically, when the display component 120 displays all the preset commodity information together, the second sensing device 112 collects user operation information input by the user in the current display screen 121, and sends the collected user operation information to the control component 130. In a specific example, the control component 130 receives the user operation information, and determines whether the time length that the user operation information indicates that the user selects the target product is greater than or equal to a preset time length: if the time length for selecting the target commodity by the user is greater than or equal to the preset time length, the target commodity in the original display screen 121 is controlled to be changed into the movable module, and the target display screen is controlled to display the target commodity corresponding to the movable module according to the user operation information.
In the implementation mode, the user can drag the target commodity information in the virtual shelf display system according to own will, and commodity sharing among the users can be realized.
In a specific example, the preset time duration may be 3 seconds, when the time duration for the user to select the target commodity is not less than 3 seconds, the target commodity in the original display screen 121 is controlled to become the movable module, and the target display screen is controlled to display the target commodity according to the user operation information.
Here, the determination manner of the target display screen 121 may be a method for determining a target object in the prior art or in the future development technology, and the present application does not limit this. For example, the user operation information may include a dragging distance of the user to the target product, and the control component 130 determines the target display screen 121 according to the dragging distance of the user to the target product. The user operation information may also include coordinate values when the user performs a dragging operation on the target product, and the control component 130 determines the target display screen 121 according to the coordinate values.
In some optional implementations of the present embodiment, the control component 130 is further configured to: and controlling the display component 120 to display the style of the preset commodity information for the first time based on the preset display style.
Specifically, the control component 130 may store a plurality of display styles in advance, receive the first gesture operation information when the operation guidance animation is displayed on the display component 120, and the control component 130 may control the first display style of the preset commodity information, transmit the preset commodity information to the display component 120, and control the display component 120 to display the preset commodity information according to the display style.
In this implementation manner, the virtual shelf display system may change the display style of the preset commodity information according to the intention of the user determined by the historical data, so that the displayed commodity information more conforms to the interest of the user.
Referring to fig. 4, fig. 4 shows a block diagram of yet another embodiment of a virtual shelf display system according to the present disclosure. The system still includes a sensing component 110, a display component 120, and a control component 130, wherein the display component 120 further includes: a display component driving unit 122 configured to receive animation display information sent by the control component 130, and control each display screen 121 to display an operation guidance animation based on the animation display information; or configured to receive the commodity display information sent by the control component 130, and control each display screen 121 to display preset commodity information corresponding to the first gesture operation information based on the commodity display information.
Specifically, the display component driving unit 122 receives animation display information sent by the control component 130, and controls each display screen 121 to display an operation guidance animation according to the animation display information. Or the display module driving unit 122 receives the commodity display information sent by the control module 130, and controls each display screen 121 to display preset commodity information corresponding to the first gesture operation information according to the commodity display information.
The display module driving unit 122 may further include a screen divider 1221 and a screen converter 1222. The screen divider 1221 is connected to the control module 130, the screen switcher 1222 is connected to the screen divider 1221, and the display screens 121 are respectively connected to the screen switcher 1222. The screen splitter 1221 receives the animation display information or the merchandise display information output by the control component 130, splits the animation display information or the merchandise display information, and sends the split animation display information or the merchandise display information to the screen converter 1222, and the screen converter 1222 receives the split animation display information or the split merchandise display information, and correspondingly sends the split animation display information or the split merchandise display information to each display screen 121 for display.
The number of the screen converters 1222 is the same as the number of the display screens 121.
In some optional implementations of this embodiment, the system further includes: tempering the glass; the tempered glass is disposed on the second sensing device 112 for protecting the second sensing device 122.
With continued reference to FIG. 4, in one specific example, the following is a method of use of the virtual shelf display system by a user:
when the user approaches the display component 120, the first sensing device 111 senses the distance information of the user from the display component and transmits the distance information to the control component 130. When the control component 130 determines that the distance information is not greater than 3 meters, the control component 130 considers that the user starts to notice the virtual shelf display system, stops playing the advertisement information, and starts to control the display component 120 to display an operation guidance animation, which is an introduction to the operation of the virtual shelf display system by the user.
The second sensing device 112 may collect the first gesture operation information while displaying the operation guidance animation.
When the control component 130 determines that the first gesture operation information is a local operation, the three display screens 121 may display in a split screen manner, and respectively display different preset commodity information, and a user may interact with the preset commodity information in the display component 120 through a click operation, a vertical stroke operation, a two-finger horizontal operation, and a three-finger vertical operation. The user can check the detailed information of the current commodity information through clicking operation; the current commodity information can be switched and other commodity information can be displayed through up-down sliding operation; the picture can be cut and the current commodity can be refreshed through the transverse operation of two fingers; the display style of the current commodity information can be changed through the vertical operation of three fingers.
When the control module 130 determines that the first gesture operation information is a global operation, the three display screens 121 may be displayed in a linked manner, and display the same preset commodity information or display all the preset commodity information together, and display the preset commodity information of the whole shelf.
When the three display screens 121 jointly display all the preset commodity information, a user can select a target commodity, and when the selection operation time exceeds 3 seconds, the control component 130 changes the target commodity into a movable module, and then drags the target commodity to the target display screen 121 for display.
The control component 130 sends the operation guidance animation or the preset commodity information to the screen splitter 1221, the screen splitter 1221 splits the operation guidance animation or the preset commodity information, the split operation guidance animation or the preset commodity information is sent to the corresponding screen converter 1222, each screen converter 1222 sends the split operation guidance animation or the preset commodity information to the corresponding display screen 121, and at this time, each display screen 121 displays different operation guidance animations or different preset commodity information respectively, so that different preset commodity information is displayed on different display screens 121, or the same preset commodity information is displayed on all the display screens, or all the preset commodity information is displayed on all the display screens. Here, the operation guide animation or the preset goods information may be adapted to the problem of the landscape display rather than the portrait display of the display screen 121 after passing through the screen switcher 1222.
The foregoing description is only exemplary of the preferred embodiments of the disclosure and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention in the embodiments of the present disclosure is not limited to the specific combination of the above-mentioned features, but also encompasses other embodiments in which any combination of the above-mentioned features or their equivalents is made without departing from the inventive concept as defined above. For example, the above features and (but not limited to) technical features with similar functions disclosed in the embodiments of the present disclosure are mutually replaced to form the technical solution.