CN110908553A - Universal date control implementation method suitable for commercial intelligent instrument panel - Google Patents

Abstract

A method for realizing a universal date control suitable for a commercial intelligent instrument panel is characterized in that a date control comprising a primary partition button and a secondary suspension expansion button is arranged on a user screen interface, so that the data display space can be saved, the working efficiency of a user can be improved, multi-terminal use is supported, and the user can obtain better use experience.

Description

Universal date control implementation method suitable for commercial intelligent instrument panel

Technical Field

The invention relates to a date control technology, in particular to a method for realizing a universal date control suitable for a commercial intelligent instrument panel.

Background

A Business Intelligence dashboard (BI dashboard) is a module which is owned by general Business Intelligence (Business Intelligence) and realizes data visualization, and is a data virtualization tool for showing measurement information and key Business indicator kpi (key performance indicator) status to enterprises. With the rapid development of BI, BI dashboards are becoming more abundant and diverse, and are more widely used in governments and enterprises. Most BI dashboards require different time granularity for presenting the information data. And clicking a pull-down selection and configuring a data statistical period through a date control on the BI dashboard to realize switching data presentation with different time granularities (such as the last half year, Q3 quarter, 7 month and the like) so as to facilitate wider and more accurate auxiliary business operation decision.

A date control (DateTimePicker) is typically used to allow a user to select a single value from a list of dates. When the system runs, clicking a pull-down arrow on the side of the control can display two parts: a drop down list, one for selecting a date. There are two modes of common operation: drop-down calendar mode (default) — allowing the user to display a drop-down calendar that can be used to select a date; time format mode-allows the user to select a field in the date display (e.g., month, day, year, etc.) and press the up and down arrows to the right of the control to set its value. However, the problems and disadvantages of the current date control in most BI dashboards are the following: 1. most of the existing BI dashboard date controls follow the traditional style of controls in the report function. The traditional date control is based on a common application scene of a PC (personal computer) end, and date selection and configuration are performed through mouse clicking, so that the traditional date control cannot adapt to emerging application scenes such as a touch screen computer, a tablet computer and a mobile phone end. Traditional date control has poor scalability for supporting multi-terminal applications. 2. The conventional BI dashboard interface is modular in layout, whereas conventional date controls are often used in tablature layouts and are somewhat obtrusive when used in conjunction with BI dashboards. In addition, most BI dashboards have more contents, the interface space is limited, the traditional date control has large coverage area and more occupied space, and the data display is not favorable for more optimization. Conventional date controls are not targeted for BI dashboard adaptation. 3. The traditional date control carries out statistical period screening by clicking a pull-down selection mode. The interactive perception aspect has the defects of dispersed focus, complex operation, insufficient centralization of business logic, insufficient intuition of data presentation and the like. The traditional date control cannot provide better interaction experience for users under the new application environment. Based on the knowledge of the prior art of business intelligence BI (business intelligence), business intelligence dashboard BI dashboard (business intelligence dashboard), user interface design ui (user interface), user experience design ue (user experience), and the like, the inventor believes that if a date control including a primary partition button and a secondary suspension extension button is arranged on a user screen interface, the data display space can be saved, the working efficiency of the user can be improved, multi-terminal use can be supported, and the user can obtain better use experience. In view of the above, the present inventors have completed the present invention.

Disclosure of Invention

Aiming at the defects or shortcomings in the prior art, the invention provides the method for realizing the universal date control suitable for the commercial intelligent instrument panel.

The technical scheme of the invention is as follows:

a general date control implementation method applicable to a commercial intelligent instrument panel is characterized by comprising the steps of arranging a primary partition button and a secondary suspension expansion button at a date control position on a user screen interface, displaying the secondary suspension expansion button below a selected button item along the periphery of the primary partition button when the selected button item exists in the primary partition button, hiding the secondary suspension expansion button in the date control position after the selected button item exists in the displayed secondary suspension expansion button and is confirmed, and only keeping the selected state of the primary partition button.

The primary partition buttons include a year button, a quarter button, and a month button.

The second-level suspension expansion button under the year button item comprises a year-round button, a first-half year button and a second-half year button.

The secondary hover extension buttons under the quarter button item include a quarter 1 button, a quarter 2 button, a quarter 3 button, and a quarter 4 button.

The second-stage floating expansion buttons under the month button item include a month 1 button, a month 2 button, a month 3 button, a month 4 button, a month 5 button, a month 6 button, a month 7 button, a month 8 button, a month 9 button, a month 10 button, a month 11 button, and a month 12 button.

And the mutual exclusion relationship is formed among all the buttons in the primary partition buttons, wherein the mutual exclusion relationship means that only one button can be selected 1 time, after one button is clicked, other buttons are in an unselected state, and if another button is clicked again, the clicked button is automatically recovered to the unselected state.

And mutual exclusion relation exists among all the buttons in the secondary suspension expansion buttons.

Each button in the first-stage partition button is a sector, each sector is combined into a circular surface, each button in the second-stage suspension expansion button is an annular section, and each annular section is combined into a circular ring surrounding the circular surface.

The date control is located at the upper left corner or the upper right corner of the business intelligent instrument panel and used for screening data statistics periods with different intervals as time granularities according to the data collected by the business intelligent instrument panel.

The year button in the primary partition button is used for screening data statistics periods with years as time granularity, the season button in the primary partition button is used for screening data statistics periods with seasons as time granularity, and the month button in the primary partition button is used for screening data statistics periods with months as time granularity.

The invention has the following technical effects: the invention relates to a method for realizing a universal date control suitable for a commercial intelligent instrument panel, which solves the problem of time period switching of different granularities on a BI dashboard, and presents information data from different time granularities of 'year, season, month' and the like through menu design based on a viscous concept, thereby saving a lot of data display space, improving the working efficiency of a user and finally providing high-quality interactive experience for the user. The invention firstly abandons the style of the traditional date control, adopts a menu design based on a viscosity concept, and combines the use experience of touch screen interaction to form an interactive circular button which can support a plurality of terminals such as a PC terminal, a tablet personal computer and a mobile phone terminal. The expandability of the date control in the BI dashboard is greatly improved. The invention is not limited to the tabular layout aiming at the application characteristics of the BI dashboard. The date control may be configured with various chart styles at will and may be configured at any location in the BI dashboard. Because the date control integrates 'year, season and month' into the same button and adopts a suspension expansion type method to display period detail options, the available space of the BI dashboard is greatly saved, the date control is seamlessly connected with the modular layout of the BI dashboard, and the visual effect of unified overall style is achieved. Then, by a suspension expansion clicking method, the interactive focus is concentrated, the clicking times are reduced, the periodic data are displayed in a surrounding mode more visually, the hierarchical logic and the mutual exclusion relation of the data period are completely embodied, and the interactive experience of the BI dashboard is greatly improved.

Drawings

Fig. 1 is a schematic diagram of a primary partition button formed by implementing a method for implementing a universal date control applicable to a commercial intelligent dashboard according to the present invention. The primary partition, i.e., the first-level partition in fig. 1, includes 3 sectors, which are a year button a, a season button B, and a month button C, respectively. Fig. 1 shows a situation that none of the 3 primary partition buttons is clicked or touch-selected, and 3 sector buttons have mutual exclusion properties (mutual exclusion relationship), only one button can be selected 1 time, and after one of the buttons is clicked, the other buttons must be in an unselected state, for example, if another button is clicked again, the button that was clicked before is automatically restored to the unselected state.

FIG. 2 is a schematic diagram of a secondary hover expand button that appears after the primary partition year button A in FIG. 1 is selected. The secondary floating extension buttons under the primary division year button a include a "year all" button a1, a "year first" button a2, and a "year second" button A3. A1, A2, A3 have mutually exclusive properties. When 1 of the buttons, such as A2, is selected, the whole secondary floating expansion button is hidden, and the middle round surface of the primary partition year button A is reserved.

FIG. 3 is a schematic diagram of a secondary hover expand button that appears after the primary partition season button B of FIG. 1 is selected. The two-stage hover expand buttons under the one-stage quarter button B include a "quarter 1" button B1, a "quarter 2" button B2, a "quarter 3" button B3, and a "quarter 4" button B4. B1, B2, B3, B4 have mutually exclusive properties. When 1 of the buttons, such as B2, is selected, the entire secondary hover expand button is hidden, leaving the middle circle surface of the primary quarter button B selected.

FIG. 4 is a schematic diagram of a secondary hover expand button that appears after the primary partition month button C in FIG. 1 is selected. The secondary hover expansion buttons under the primary partition month button C include a "month 1" button C1, a "month 2" button C2, a "month 3" button C3, a "month 4" button C4, a "month 5" button C5, a "month 6" button C6, a "month 7" button C7, a "month 8" button C8, a "month 9" button C9, a "month 10" button C10, a "month 11" button C11, and a "month 12" button C12. C1, C2, C3, C4, C5, C6, C7, C8, C9, C10, C11, C12 have mutually exclusive attributes. When 1 of the buttons, such as C4, is selected, the entire secondary hover expand button is hidden, leaving the middle circular surface of the primary partition month button C selected.

Detailed Description

The invention is described below with reference to the accompanying drawings (fig. 1-4).

Fig. 1 is a schematic diagram of a primary partition button formed by implementing a method for implementing a universal date control applicable to a commercial intelligent dashboard according to the present invention. FIG. 2 is a schematic diagram of a secondary hover expand button that appears after the primary partition year button A in FIG. 1 is selected. FIG. 3 is a schematic diagram of a secondary hover expand button that appears after the primary partition season button B of FIG. 1 is selected. FIG. 4 is a schematic diagram of a secondary hover expand button that appears after the primary partition month button C in FIG. 1 is selected. Referring to fig. 1 to 4, a method for implementing a universal date control for a business intelligent dashboard includes providing primary zone buttons (e.g., year button a, season button B, month button C) and secondary float extension buttons (year button a1, first-half year button a2, and second-half year button A3 corresponding to year button a, quarter button B1, quarter button B2, quarter button B3, and quarter button B4 corresponding to season button B, month button C961, month button C2, month button C3, month button C4, month button C5, month button C6, month button C7, month button C8, month button C9, month button C10, month button C11, month button C11, and month button 12 button C638) corresponding to month button B at date control positions on a user screen interface, when the selected button item exists in the primary partition buttons, the secondary suspension expansion buttons under the selected button item are displayed along the periphery of the primary partition buttons, and when the selected button item exists in the displayed secondary suspension expansion buttons and is confirmed, the secondary suspension expansion buttons in the date control position are hidden, and only the selected state of the primary partition buttons is kept. The primary partition buttons include a year button A, a season button B, and a month button C. The secondary floating extension buttons under the year button item include a year all button a1, a year last button a2, and a year last button A3. The secondary hover extension buttons under the season button item include a quarter 1 button B1, a quarter 2 button B2, a quarter 3 button B3, and a quarter 4 button B4. The secondary hover expansion buttons under the month button item include a month 1 button C1, a month 2 button C2, a month 3 button C3, a month 4 button C4, a month 5 button C5, a month 6 button C6, a month 7 button C7, a month 8 button C8, a month 9 button C9, a month 10 button C10, a month 11 button C11, and a month 12 button C12. And the mutual exclusion relationship is formed among all the buttons in the primary partition buttons, wherein the mutual exclusion relationship means that only one button can be selected 1 time, after one button is clicked, other buttons are in an unselected state, and if another button is clicked again, the clicked button is automatically recovered to the unselected state. And mutual exclusion relation exists among all the buttons in the secondary suspension expansion buttons. Each button in the first-stage partition button is a sector, each sector is combined into a circular surface, each button in the second-stage suspension expansion button is an annular section, and each annular section is combined into a circular ring surrounding the circular surface. The date control is located at the upper left corner or the upper right corner of the business intelligent instrument panel and used for screening data statistics periods with different intervals as time granularities according to the data collected by the business intelligent instrument panel. The year button in the primary partition button is used for screening data statistics periods with years as time granularity, the season button in the primary partition button is used for screening data statistics periods with seasons as time granularity, and the month button in the primary partition button is used for screening data statistics periods with months as time granularity.

The invention has the following characteristics: 1. date controls designed for BI dashboards that integrate 'year, season, month' into a circular button style. 2. Based on the viscous concept menu, the data detail period option is selected in an expanded suspension mode, and interactive design used by multiple terminals is supported. 3. Integrating hierarchical logic and mutual exclusion relation of 'year, season and month' of a carding data statistical period aiming at business of a BI dashboard;

it is pointed out here that the above description is helpful for the person skilled in the art to understand the invention, but does not limit the scope of protection of the invention. Any such equivalents, modifications and/or omissions as may be made without departing from the spirit and scope of the invention may be resorted to.

Claims (10)

1. A general date control implementation method applicable to a commercial intelligent instrument panel is characterized by comprising the steps of arranging a primary partition button and a secondary suspension expansion button at a date control position on a user screen interface, displaying the secondary suspension expansion button below a selected button item along the periphery of the primary partition button when the selected button item exists in the primary partition button, hiding the secondary suspension expansion button in the date control position after the selected button item exists in the displayed secondary suspension expansion button and is confirmed, and only keeping the selected state of the primary partition button.

2. The method of claim 1, wherein the primary zone buttons comprise a year button, a quarter button, and a month button.

3. The method of claim 2, wherein the secondary hover extension buttons under the year button include a year all button, a year first button, and a year second button.

4. The method of claim 2, wherein the secondary hover extension buttons under the quarter button include a quarter 1 button, a quarter 2 button, a quarter 3 button, and a quarter 4 button.

5. The method of claim 2, wherein the secondary hover extension buttons under the month button item include a month 1 button, a month 2 button, a month 3 button, a month 4 button, a month 5 button, a month 6 button, a month 7 button, a month 8 button, a month 9 button, a month 10 button, a month 11 button, and a month 12 button.

6. The method as claimed in claim 1, wherein the buttons of the primary partition are mutually exclusive, and the mutually exclusive relationship is that only one button can be selected 1 time, and after one of the buttons is clicked, the other buttons must be in the unselected state, for example, if another button is clicked again, the button clicked before is automatically restored to the unselected state.

7. The method for implementing the universal date control applicable to the intelligent business instrument panel of claim 1, wherein mutual exclusion relationships are adopted among the buttons of the secondary floating extension buttons.

8. The method of claim 1, wherein each of the primary zone buttons is a sector, each sector is combined into a circular surface, each of the secondary floating expansion buttons is an annular segment, and each annular segment is combined into an annular ring surrounding the circular surface.

9. The method for implementing the universal date control applicable to the business intelligent instrument panel according to claim 1, wherein the date control is located at the upper left corner or the upper right corner of the business intelligent instrument panel, and the date control is used for screening data statistics periods with different intervals as time granularities for the data collected by the business intelligent instrument panel.

10. The method of claim 1, wherein a year button of the primary partition buttons is used to filter data statistics periods with time granularity of year, a quarter button of the primary partition buttons is used to filter data statistics periods with time granularity of quarter, and a month button of the primary partition buttons is used to filter data statistics periods with time granularity of month.

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