CN115205035A - Stock analysis device and method based on electric power data - Google Patents

Abstract

The invention discloses a device and a method for stock analysis based on electric power data. The method is applied to a device and a server, and comprises the following steps: the server downloads a publicly available electric power data from a host of an electric power company or a database; the server generates electric power data of a plurality of listed factories according to the publicly-available electric power data and a listed factory address list so as to respectively correspond to the power utilization conditions of the factory buildings of the listed factories; the device receives a selection instruction to generate a specific factory of a listed company; the device uploading the specific factory to the server; the device downloads the power data corresponding to the specific factory from the server; and the device generates a power data chart according to the power data.

Description

Stock analysis device and method based on electric power data

Technical Field

The present invention relates to a stock selection analysis technology for investment stocks, and more particularly, to a stock analysis device and method based on power data.

Background

According to the Wikipedia specification: smart grid (english: smart grid, smart electric grid, or intelligent grid), a modern power transmission network. The power supply status of the supply terminal and the power utilization status of the user terminal are detected and collected by digital or analog signals by using information and communication technology. And then the information is used for adjusting the production and transmission and distribution of the electric power or adjusting the power consumption of household appliances and enterprise users, thereby achieving the purposes of saving energy, reducing loss and enhancing the reliability of the power grid. The smart grid model was generated in the 20 th century and is a simple upgrade of the grid where some central generators transmit electrical energy to a large number of users. On the basis of the traditional power grid, the transmission topological network of the electric energy is more optimized to meet various power utilization conditions in a wider range, such as charging a battery in a time period with low power consumption and then providing the electric energy for the power grid in a reverse mode in a peak time. The smart grid contains an Advanced Metering Infrastructure (AMI) for recording all the flow of electrical energy in the system. Through a Smart Meter (Smart Meter), it monitors the status of power usage at any time. "A", "B", "C", "D", "A", "D", "B", "D", "A", "D", "B", "A", "D", "A", "B", "A", "D", "A", "B", "C", "B",

the biggest difference between the intelligent electric meter and the traditional electric meter is that a communication system can be linked, so that an electric power company can master the electricity utilization condition (electric power data) of a power consumer at any time through the infrastructure of the intelligent electric meter and the intelligent electric meter, and the open electric power data mainly assist the power consumer to change the electricity utilization habit so as to save electricity, however, the open electric power data can also be used for developing big data application.

At present, no matter the existing technologies (such as stock quote software or stock exchange software) running on a personal computer or a mobile device, power data is not used as a basis for stock investment analysis, and a user (i.e., an investor) cannot know the power consumption of a certain listed company when operating the existing technologies, and cannot mutually compare the current power consumption with the past power consumption to predict the trend of the stock price.

That is, the prior art cannot satisfy the requirement that the user knows the electricity utilization condition of a certain listed company by using the electricity data to estimate the capacity utilization rate. For example: the information of the power consumption chart of a certain company in continuous periods (day/week/month/season), comparison between current power consumption and the prior period, comparison between current power consumption and the same industry \8230andthe like after further analysis. Therefore, there is a need to improve the prior art method, and a resource operated by hardware and software in cooperation provides a technology for stock analysis based on power data, so that a user can know the factory power consumption of a listed company by further analyzed information based on power data, and further understand the relationship between the stock price and the power consumption of the listed company, assist in the decision of user transaction, and make up for the deficiencies in the prior art.

Disclosure of Invention

In view of this, the present invention provides an apparatus and method for stock analysis based on power data, a computer program product and a computer readable recording medium, so that a user can select a corresponding factory to query a power consumption chart after selecting a specific stock, thereby achieving a special technical effect of "power consumption analysis based on power data" for stock selection.

The invention provides a stock analysis device based on electric power data, which comprises: a communication module for establishing Internet network connection; the power data chart module is connected with a server and used for downloading power data of a specific factory of a listed company and generating a power data chart according to the power data of the specific factory, wherein the power data comprises multi-period historical power data and current power data; a memory for storing an application, the particular plant and the power data, the application including the power data graph module; a screen for displaying a graphical user interface of the application; one or more processors connecting the memory and the screen and executing the application program; and wherein the application receives a selection instruction to generate the particular factory of the listed company.

Optionally, the power data charting module further comprises: an industry selection instruction is received to display the power data corresponding to the selected industry type on the power data chart.

Optionally, the power data graph is displayed in the same view as a technical analysis line graph.

Optionally, the power data table contains information comparing current and previous power consumption.

Optionally, the power data graph includes information comparing one stock to industrial power usage.

The invention also provides a method for stock analysis based on electric power data, which is applied to a device and a server, wherein the device comprises a communication module, a memory and a screen, and the method comprises the following steps: the server downloads a publicly available electric power data from a host computer of an electric power company or a database; the server generates power data of a plurality of factory of the listed company according to the publicly available power data and a factory address list of the listed company so as to respectively correspond to the power utilization conditions of the factory buildings of the listed company; the device receives a selection instruction to generate a specific factory of a listed company; the device uploading the specific factory to the server; the device downloads the power data corresponding to the specific factory from the server; and the device generates a power data chart according to the power data.

Optionally, the listed company factory address list is an analysis and calculation unit with a smallest address of a single listed company factory, so as to divide the publicly available power data into a plurality of power data to individually correspond to the listed company factories.

Optionally, the method further comprises: the device receives an industry selection instruction to display the electric power data corresponding to the selected industry type on the electric power data chart.

Optionally, the power data graph is displayed in the same view as a technical analysis line graph.

Optionally, the power data table includes a current and previous power usage comparison.

Optionally, the power data graph includes information comparing a share with industrial power usage.

The invention also proposes a computing device with a screen, comprising: the stock analysis method based on the power data comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, wherein the processor executes the computer program to realize the steps of the stock analysis method based on the power data.

The present invention also proposes a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the above-described stock analysis method based on power data.

The detailed features and advantages of the present invention are described in detail in the embodiments below, which are sufficient for anyone skilled in the art to understand the technical contents of the present invention and to implement the present invention, and the related objects and advantages of the present invention can be easily understood by anyone skilled in the art according to the disclosure of the present specification, the protection scope of the claims and the accompanying drawings.

Drawings

FIG. 1 is a functional block diagram of a system of an apparatus according to an embodiment of the present invention;

FIG. 2 is a functional block diagram of an application and server system according to an embodiment of the present invention;

FIG. 3 is a diagram illustrating a screen of a power data chart according to an embodiment of the present invention;

FIG. 4 is a diagram illustrating a power data graph and a pull-down menu according to an embodiment of the present invention;

FIG. 5 is a diagram illustrating a screen of a power data graph according to a second embodiment of the present invention;

FIG. 6 is a diagram of a screen of a three-power data chart according to an embodiment of the present invention;

FIG. 7 is a diagram illustrating a screen shot of a four power data chart according to an embodiment of the present invention; and

FIG. 8 is a flowchart illustrating operation of an embodiment of the present invention.

Wherein, the reference numbers:

10: means for stock analysis based on the power data;

12: a processor;

14: a memory;

16: a screen;

18: a communication module;

20: an application program;

22: a power data chart module;

24: a server;

26: a data downloading module;

28: the electric power data analysis and operation module;

30: a power data graph;

32: a power data view;

34: a pull-down menu;

36: a technical analysis view;

38: a K line graph;

40: and (5) traffic graph.

Detailed Description

The Client Device (Client Device) of the present invention is a Device and method using, but not limited to, a personal Computer (PC, MAC), a Notebook Computer (Laptop/Notebook/Portable Computer), a Smart phone (Smartphone), a Tablet PC (Tablet PC), a Hand-Held Stock learning Device (Hand-Held Stock learning Device), a Personal Digital Assistant (PDA), a Smart TV (Smart TV) \8230, etc., all of which are configured with a screen and can execute the application programs of the present invention (i.e., stock trading software, stock quote software, stock market selection software).

Referring to fig. 1 and 2, a functional block diagram of a system of a device 10 for stock analysis based on power data and a functional block diagram of an application 20 according to the present invention are shown, in which only core modules related to a preferred embodiment of the present invention are shown, and the remaining modules are omitted and not depicted. The application 20 is executed on the apparatus 10 for stock analysis based on power data according to the present invention. In an embodiment of the present invention, the apparatus 10 for stock analysis based on power data comprises: one or more processors 12, memory 14, screen 16, and communication module 18. The memory 14 stores an application program 20; the processor 12 executes a plurality of program instructions contained in the application program 20 and implements the following modules in a manner that the hardware and software work together: a power data chart module 22; the screen 16 is used to display a Graphical User Interface (GUI) of the application program 20; the communication module 18 is used to establish Internet network connection, such as: wired broadband, WLAN (Wi-Fi, etc.), mobile communication networks (e.g., 3G, 4G, 5G \8230;), etc.

With reference to fig. 2, a functional block diagram of the application 20 and the server 24 according to the embodiment of the present invention includes: the power data chart module 22, the data download module 26 and the power data analysis and operation module 28 are only shown in the figure to list the core modules related to a preferred embodiment of the present invention, and the remaining modules are omitted and not depicted, for example: the stock analysis device based on the power data comprises a login verification module, a quotation module, a self-selected stock module and a news module (8230), etc. at the 10 end, and a transaction module, an account module and a quotation module (8230), etc. at the 24 end of a server.

The power data charting module 22 is used for connecting with the remote server 24 and downloading the power data of a specific factory of a listed company, and generating the power data chart 30 according to the power data of the specific factory. In some embodiments, the power data graph module 22 may also generate a power data view 32 for displaying the power data graph 30. A so-called server 24, in some embodiments a bid server, the server 24 being the same server or the same cluster of servers as the bid server; in some embodiments, the server 24 and the offer server are different servers or different clusters of servers. In some embodiments, when a user operates the application 20 with a menu (e.g., a pull-down menu for a factory of a listed company), a "selection command" for a particular factory is generated, wherein the selection command corresponds to a particular factory of a listed company, and the particular factory may include a single factory, multiple factories, or all factories of the listed company. When the application 20 receives the selection command, the power data graph module 22 uploads the specific factory selected by the user to the server 24 to download the power data corresponding to the specific factory. The power data includes multi-stage historical power data (e.g., power data of past 60 successive stages) and current power data (i.e., latest power data). The downloaded power data for a particular plant is then used by the power data diagramming module 22 to generate a power data diagram 30, which may be displayed in a single view (as shown in FIG. 3) alone or in combination with a technical analysis diagram (as shown in FIG. 5).

The data download module 26 on the server 24 is used to download "publicly available power data" from the power company host or database. The "publicly available power data" refers to AMI power consumption data downloaded by anyone who is published by a power company, and belongs to open source data. In some embodiments, the publicly available power data does not directly disclose the power consumption data of individual power consumers, but provides data integrated in a region, such as the whole power consumption in a certain administrative district, and the publicly available power data of such embodiments needs to be analyzed by artificial intelligence through the power data analysis and operation module 28, and then compared to obtain roughly estimated power data to individually correspond to the power consumption of each plant. The analysis and alignment conditions referred to by the artificial intelligence may include: geographical location, quantity and size of all factories in the same area, published historical power utilization condition of all factories in the same area \8230andthe like. In some embodiments, the data download module 26 stores the downloaded publicly available power data in a memory (not shown) of the server 24; in some embodiments, the data download module 26 stores the downloaded publicly available power data in a database (not shown) on the server 24 side.

The power data analysis and operation module 28 generates power data of a plurality of listed factories according to the publicly available power data and the listed factory address list of the listed factories to respectively correspond to power utilization conditions of the plurality of listed factories. The listed company factory address list is an analysis and calculation unit that integrates all listed companies and addresses of respective factories flagged by a single listed company factory address as the minimum, and divides the publicly available power data into a plurality of power data to individually correspond to the listed company factories. For example: the power data analysis and operation module 28 divides the power consumption data corresponding to the listed company in the publicly available power data into eight power data (each corresponding to a factory of the listed company) according to the factory address list of the listed company. The power data of the separated individual factories can be downloaded to the application program 20. In addition to the power data generated by the power data analysis and calculation module 28 being downloaded by the application 20 in units of the factory address, in some embodiments, the power data may be downloaded by the application 20 after being divided into industry categories, for example: the wafer foundry industry, the IC packaging and testing industry \8230, and so on. In some embodiments, the power data analysis operation module 28 stores the generated power data in a memory (not shown) of the server 24 for downloading; in some embodiments, the power data analysis operation module 28 stores the generated power data in a database (not shown) on the server 24 side for downloading.

Referring to fig. 3, a screen 16 diagram of a power data graph 30 according to an embodiment of the present invention illustrates a graphical user interface of the application program 20 displayed on the screen 16 according to an embodiment of the present invention, in which the power data graph 30 is separately displayed in a power data view 32 (generated by the power data graph module 22); the power data view 32 is generated by the power data graph module 22 clicking on a power data option generated in the graphical user interface of the application 20 (e.g., the user selects a share and then switches to power data by a sliding operation, or selects power data by a "sub-menu", not shown). In some embodiments, the power data chart 30 may also be displayed separately in a detailed information view of the individual shares (detailed information of the individual shares such as best five files, quote details, technical analysis, trend chart, power data \8230; etc., not shown). The drawings in the specification of the present invention are illustrated by taking a smart phone screen style as an example, the client device of the present invention is not limited to be used in a smart phone, and the client device of the present invention can also be used in desktop computers, notebook computers, tablet computers, handheld stock computers, personal digital assistants, smart televisions, 8230, and the like. In this embodiment, the power data table 30 is displayed by a smart phone (the apparatus 10 for stock analysis based on power data). The illustration shows that the user can click on the triangle buttons on the left and right sides of "Taiwan mud 1101" (Taipei stock code 1101) above the power data view 32 generated by the power data chart module 22 to switch to other stocks of listed companies, or, the user can click on the input box in the upper right corner to input and search. The power data graph 30 of the illustrated example shows the aggregate continuous period power usage for all the plants of the table mud in "months" (time periods selectable via the pull-down menus of the graph), and the unit of the Y-axis is GigaW (mega 29929. The user can know the power consumption of the factory of the listed company in the continuous period through the power data chart 30, and can estimate the yield and the capacity utilization rate by matching with other production information.

Referring to fig. 4, a schematic diagram of a screen 16 of a power data graph 30 and a pull-down menu 34 according to an embodiment of the invention, and fig. 3 and 4 are the same embodiment (the power data graph 30 is separately displayed in the power data view 32), which illustrates a user selecting a check action of different factories according to a menu screen generated by the power data graph module 22 after the user clicks the pull-down menu 34. The user can select the factory under the floor by the pull-down menu 34 (generating a "selection command" for a specific factory), and after the selection command for the specific factory is transmitted to the server 24, the server 24 can download the power data for the specific factory, and the power data graph module 22 can update the power data graph 30 to display the power consumption of the selected specific factory.

Referring to fig. 5, a screen 16 of a power data graph 30 according to a second embodiment of the present invention is schematically illustrated, which illustrates that the power data graph 30 of the table mud is displayed in a technical analysis view 36 of the table mud according to the second embodiment of the present invention. The user can view the technical analysis line graph (the legend includes the K line graph 38 and the volume graph 40) and the power data chart 30 of each stock in the same technical analysis view 36 at the same time, so as to more clearly show the relationship between the stock price trend and the electricity utilization condition, and facilitate the analysis of investment decision by the user. The power data of the present embodiment may be a main indicator or a sub indicator in the technical analysis, and the power data graph module 22 generates an option or a key for displaying the power data in the technical analysis view 36 (as the setting manner of the main indicator and the sub indicator in the prior art analysis, which is not shown), so that the power data graph 30 can be displayed in the technical analysis view 36 after the user sets the option or the key. In some embodiments, a technical analysis view option or button may be added to the power data view 32 (fig. 3 embodiment) and, when clicked, the technical analysis view 36 of fig. 5 embodiment including the power data graph 30 may be displayed. The concept of the technical analysis view 36 including the power data graph 30 is substantially the same view including both the power data graph and the technical analysis line graph, in other words, it is generated on the basis of the same time period after the power data and the technical analysis data are received by the power data graph module 22, and therefore, it may also be referred to as the power data view 32 including the technical analysis line graph or the technical analysis line graph integrating the power data.

After receiving the setting instruction for displaying the power data, i.e. according to the time period in the technical analysis view 36, the power data graph module 22 displays the power data graph 30 in the technical analysis view 36, and corresponds to the time unit of the pull-down menu for adjusting the time period, which is a "month line graph" in the embodiment of fig. 5. In some embodiments, the power data graph 30 may be arbitrarily configured with different techniques to analyze the line graph, such as: american line graph, closing price connection graph, OX graph, new price line graph, MACD, KD and RSI \8230andthe like. In the present embodiment, when the user changes the time period of the power data graph 30, all the technical analysis line graphs in the technical analysis view 36 are also changed to the same time period in synchronization. In some embodiments, the power data chart 30 may be overlappingly displayed (i.e., sharing the X-axis and Y-axis of the chart in an overlappingly manner) in a technical analysis chart (e.g., a K-chart 38 or a us-chart, not shown) to allow the user to carefully compare the power usage to the stock price trend.

In the embodiment of fig. 5, a user may compare trend correlations of power data of the same period (X-axis) in the technical analysis view 36 with data of the technical analysis line graph in an intuitive manner. In other words, the present invention can make the user obtain a view for rapidly comparing the power data and the technical analysis line graph according to the preference of the user (selecting a specific factory of a specific company or all factories) by remitting the power data and the technical analysis line graph, thereby obtaining a new investment financing analysis method.

Referring to fig. 6, a screen 16 of a power data graph 30 according to a third embodiment of the present invention is a schematic diagram illustrating that the power data graph 30 of the cement-based strand (i.e., the cement slab) is displayed in a technical analysis view 36 of the cement-based strand index (i.e., the cement slab index) according to the third embodiment. Compared with the power data chart 30 of a single listed company in the second embodiment shown in fig. 5, the power data chart 30 generated by the power data chart module 22 in this embodiment is generated by the power data analyzing and calculating module 28 in the server 24 summing up the power consumption data of all listed companies in the same category, and can be downloaded by the power data chart module 22 and displayed on the power data chart 30, so that the user can know the overall power consumption of a certain industry. Similarly, the power data graph module 22 generates a power data display option or button (for setting the primary or secondary indicator) in the technical analysis view 36 of the cement strand, and then displays the power data graph 30 in the technical analysis view 36 of the cement strand after the user sets the power data graph. In some embodiments, a technical analysis view option or button may be added to the power data view 32 (not shown) of the cement-based strand, and when clicked by the user, the technical analysis view 36 of the cement-based strand including the power data graph 30 of the embodiment of fig. 6 may be displayed. In addition, the power data graph module 22 generates a pull-down menu of the category shares and a clicked menu screen, so that the user can select the category shares by using the pull-down menu (generate a "selection instruction" of the industry), and the power data graph 30 can be updated to display the selected specific industry power consumption.

Referring to fig. 7, a schematic diagram of a screen 16 of a four-power data chart 30 according to an embodiment of the present invention illustrates that in this embodiment, two power data charts 30 are displayed in an overlapping manner (i.e., X-axis and Y-axis of the charts are shared in an overlapping manner) so as to enable a user to compare power consumption of the two power data charts, and a schematic diagram illustrates that power consumption of all plants of the table mud and power consumption of cement fingers are displayed in an overlapping manner on the same power data chart 30, and "individual stock and industrial power consumption comparison information" is displayed (the text of the schematic diagram is "table mud: cement finger = 1. The power data table overlay of the embodiment of fig. 7 is that the power data table module 22 displays an overlay option (or key) in the power data view 32, for example, in the embodiment of fig. 3, an "share-like power data overlay" option or key is added, and when set by the user, the illustration of fig. 7 can be presented; alternatively, in the embodiment of fig. 6, a "power data overlap" pull-down menu is added, and when the user clicks the pull-down menu and clicks "mud", the legend of fig. 7 can be presented. In some embodiments, the current-period and previous-period two power data charts 30 are displayed in an overlapping manner, and "current-period and previous-period power consumption comparison information" is displayed so that the user can compare the power consumption of the two periods, which is not shown in the figure.

In another embodiment of the present invention, the superimposed power data chart 30 generated in the embodiment of fig. 7 may be displayed in the technical analysis chart 36 of the cement, or in the technical analysis chart of the cement (not shown). Therefore, the user can synchronously check the power utilization condition of all the plants of the table mud, the power utilization condition of the cement fingers and the technical line graph of the table mud in the same time period. Furthermore, the superimposed power data chart 30 generated in the embodiment of fig. 7, the technical analysis line graph of the tai mud, and the technical analysis line graph of the cement finger can be displayed simultaneously to form a composite technical analysis line graph, so that the user can view more power data and technical analysis line graph information in the same time period simultaneously.

Referring to fig. 8, a flow chart of the operation of the embodiment of the present invention is shown. After the server 24 downloads and divides the publicly available power data, the user executes the application 20 by using the device 10 for stock analysis based on power data (e.g. computer/smart phone/tablet computer/stock machine/smart tv), and downloads the operation flow of all the factory power data of a certain listed company, please refer to fig. 1, fig. 2, fig. 3 and fig. 4, which includes:

step S101: the server 24 downloads the publicly available power data from a power company host or database. The data download module 26 at the server 24 downloads the publicly available power data from the host computer or database of the power company. The downloaded publicly available power data is stored in a memory (not shown) of the server 24 or in a database (not shown) on the server 24 side.

Step S102: the server 24 generates power data of each factory of the listed company based on the publicly available power data. After downloading the publicly available power data, the power data analysis and operation module 28 at the server 24 generates power data of a plurality of factories of the listed companies according to the publicly available power data and the factory address list of the listed companies so as to individually correspond to the power consumption conditions of the factories of the listed companies; in addition, the electric power data analyzing and calculating module 28 further calculates all plant electric power data of each listed company in a summary manner to obtain all plant electric power data; in addition, the electric power data analysis and operation module 28 further sums up the electric power data of all listed companies in the same type of stock to generate a type of stock electric power data. The generated factory power data, total plant power data, share-like power data, and the like are stored in a memory (not shown) of the server 24 or stored in a database (not shown) on the server 24 side for downloading by the apparatus 10 for stock analysis based on power data.

Step S103: the device receives a selection instruction to correspond to a particular factory of a listed company. A user executes an application 20 (i.e., stock exchange software, stock quote software, or investment stock-selecting software) of the present invention on a device 10 for stock analysis based on power data (e.g., a computer/smart phone/tablet computer/stock machine/smart tv), the device 10 for stock analysis based on power data establishes a connection with a server 24 through a communication module 18 after execution, then the user selects a stock of a listed company (e.g., selects "mud" from the selected stock), the application 20 generates a power data view, and generates a pull-down menu, and the user selects a factory under the mud through the pull-down menu 34, as shown in fig. 4, that is, generates a "selection command" of a specific factory of the listed company (the selection command at least includes data of the listed company and data of the selected factory), and the selection command of the specific factory is corresponding to a single factory, multiple factories, or all factories of the listed company.

Step S104: the device uploads a selection instruction of a listed company to the server 24. When the application 20 of the apparatus 10 for stock analysis based on power data receives a selection command of a specific factory, the selection command is uploaded to the server 24 by the power data graph module 22.

Step S105: the device downloads from the server 24 power data corresponding to a particular factory of a listed company. After the stock analysis device 10 based on the power data uploads the selection command of the listed company to the server 24, the power data graph module 22 receives the power data corresponding to the specific factory of the listed company and stores the power data in the memory 14.

Step S106: the apparatus generates a listed company power data chart 30 based on power data for a particular factory of the listed company. After the apparatus 10 for stock analysis based on power data downloads power data of a specific plant, the power data graph module 22 generates the power data graph 30 according to the power data of the specific plant. In some embodiments, the power data graph 30 may be displayed separately in the power data view 32 (generated by the power data graph module 22), as shown in FIG. 3; in some embodiments, the power data chart 30 may be merged with the technical analysis line graph and displayed in the technical analysis view 36 according to the same time period, as shown in FIG. 5. In some embodiments, a single listed company power data graph 30 and a stock-like power data graph 30 may be merged and displayed in a power data view 32, as shown in FIG. 7, or both may be superimposed (not shown); in some embodiments, the strand-like power data chart 30 may be displayed in the technical analysis view 36 in combination with the technical analysis line chart, as shown in FIG. 6.

It is understood that the program instructions executed by the computer may implement the blocks of the flowchart, the combination of the blocks of the flowchart, and the steps of the embodiments. The program instructions may be provided to a processor to produce a machine, or to produce a resource in which hardware and software operate in conjunction, such that the instructions, which execute on the processor, create means for implementing the actions or techniques specified in the flowchart block or blocks. Different sets of program instructions may cause at least some of the operational steps shown in the flowchart blocks to be performed in parallel, and the technical content represented by the various program instructions of an application may vary from embodiment to embodiment. Furthermore, some of these steps may be performed on more than one processor, such as where the microprocessor and the peripheral interface processor of the present invention operate in conjunction. Furthermore, one or more blocks or combinations of blocks in the flowcharts may also be performed concurrently with other blocks or combinations of blocks, or even in a different order than illustrated, without departing from the scope or spirit of the invention.

Accordingly, blocks of the flowchart illustrations support combinations of means for performing the specified actions or technical effects, combinations of steps for performing the specified actions or technical effects, and program instruction means for performing the specified actions or technical effects. It will also be understood that each block of the flowchart illustrations, and combinations of blocks in the flowchart illustrations, can be implemented by special purpose hardware-based systems which perform the specified actions or techniques, or by special purpose hardware and program instructions which work in conjunction with each other.

In summary, the present invention provides a technology for stock analysis based on electric power data, which solves the problems of "using electric power data to know the electricity consumption of a certain listed company" and "comparing the current electricity consumption with the previous period" and "comparing the current electricity consumption with the co-production" in the prior art. By applying the stock analysis technology based on the electric power data, the special technical effect that the user can quickly know the factory electricity utilization condition of a certain listed company can be achieved, so that the user can quickly make an investment decision.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes and modifications can be made without departing from the spirit of the invention.

Claims (11)

1. An apparatus for stock analysis based on power data, the apparatus comprising:

a communication module for establishing Internet network connection;

the power data chart module is connected with a server and generates a selection picture for generating a selection instruction, the selection instruction is used for selecting a specific factory of a listed company, downloading power data of the specific factory of the listed company after transmitting the selection instruction to the server, and generating a power data chart according to the power data of the specific factory, wherein the power data comprises multi-stage historical power data and current-stage power data;

a memory for storing an application, the particular plant, and the power data, the application including the power data graph module;

a screen for displaying a graphical user interface of the application;

one or more processors coupled to the memory and the screen and executing the application.

2. The apparatus for stock analysis based on power data as claimed in claim 1, wherein the power data charting module further comprises: and after an industry selection instruction is received to upload the industry selection instruction to the server, the power data corresponding to a selected industry type is downloaded and displayed in the power data chart.

3. The apparatus of claim 1, wherein the power data graph module downloads technical analysis data and displays the power data graph and a technical analysis line graph in a same view according to a same time period.

4. The apparatus of claim 1, wherein the power data graph comprises a current and previous power consumption comparison.

5. The apparatus of claim 2, wherein the power data graph module displays the power data graph generated according to the power data of the selected industry category and the power data graph generated according to the power data of the specific factory in a same view according to a same time period.

6. A method for stock analysis based on electric power data is applied to a device and a server, the device comprises a communication module, a memory and a screen, and the method is characterized by comprising the following steps:

the server downloads a publicly available electric power data from a host of an electric power company or a database;

the server generates power data of a plurality of factory of the listed company according to the publicly available power data and a factory address list of the listed company so as to respectively correspond to the power utilization conditions of the factory buildings of the listed company;

the device receives a selection instruction to correspond to a specific factory of a listed company;

the device uploads the selection instruction to the server;

the device downloads the power data corresponding to the specific factory from the server; and the number of the first and second groups,

the device generates a power data chart according to the power data.

7. The method of claim 6, wherein the listed factory address list is an analysis unit with a smallest listed factory address, so as to divide the publicly available power data into a plurality of power data to correspond to the listed factory buildings individually.

8. The method for stock analysis based on power data as claimed in claim 6, further comprising:

the device receives an industry selection instruction to display the power data corresponding to the selected industry type on the power data chart.

9. The method of claim 6, wherein the device further receives technical analysis data, and displays the power data graph and a technical analysis line graph in the same view simultaneously according to a time period.

10. The method of claim 6, wherein the power data graph comprises a current and previous power consumption comparison.

11. The method of claim 6, wherein the power data graph comprises a comparison of a stock and industry power usage.

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