JP2015181039A - Information processor, information processing system and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information processor which visualizes an environmental load reduction effect after software application.SOLUTION: An apparatus analyzer comprises: an information holding part 32 which holds information (log information 41, apparatus information 42) on an apparatus acquired from an apparatus management device via a network and information (product information 43, installation information 44) on a software product and installation thereof; an environmental load value calculation part 331 which calculates a current environmental load value for each apparatus from the information on the apparatus on the basis of a coefficient for conversion into a prescribed environmental load value; a calculation data acquisition part 332 which specifies corresponding product characteristics by specifying a software applied to the apparatus on the basis of the information on the apparatus; a pre-reduction environmental load value calculation part 333 which calculates a pre-reduction environmental load value before the application of the software to the apparatus on the basis of the calculated current environmental load value and the specified product characteristics; and an information provision part 34 which provides analysis information in which the current environmental load value and the pre-reduction environmental load value can be compared with each other.

Description

  The present invention relates to an information processing apparatus, an information processing system, and a program that perform device analysis based on various types of information collected from one or more devices connected via a data transmission path such as a network. It relates to technology that provides analysis information.

  Due to the recent increase in environmental orientation and energy saving orientation, power consumption, paper consumption, and image forming apparatuses (hereinafter referred to as “equipment”) such as printers, copiers, and copiers (MFPs) are also increasing. In addition, consideration for reduction of toner consumption (reduction of environmental load) is regarded as important.

  For example, information on the power consumption of equipment of major manufacturers is disclosed by a predetermined organization (for example, “(Energy Conservation Center)”), and depending on the user, it is one of important judgment materials when selecting equipment to purchase. Has been. In addition, even after purchasing a device, there are users (companies) who are beginning to be interested in how much power is consumed by the device in their own office from the viewpoint of reducing energy costs.

  For this reason, manufacturers have installed various functions for reducing environmental impact (software products that implement power control functions, print restriction functions, etc.), and device management devices that manage these devices. Is provided. The user can realize a reduction in environmental load by constructing a device management system including the device and the device management apparatus.

  With the advancement of information processing technology including network communication, for example, a technology for remotely managing an internal system constructed in a specific area such as a local area from an external system is already known.

  For example, Patent Document 1 discloses a system in which information on usage status is transmitted to a center from a copying machine set as a customer via a transmission device, and the information is accumulated. Further, for example, Patent Document 2 has environmental load information, financial information, and proposal information. Based on the information, the control unit determines an entity to be improved with respect to the environmental load, and then analyzes the current status from the analysis result. A system for providing proposal information corresponding to the business entity is disclosed.

  Conventionally, however, the information provided to the user clearly shows how much environmental load is currently reduced (current environmental load reduction effect) by introducing the device and / or the device management system. It was not something that was expressed.

  For example, when installed in a user, a device or device management apparatus may already be equipped with a software product that realizes environmental load reduction.

  In such a case, since the values of various information collected by the system as disclosed in the above patent document are values after reducing the environmental load, the user can know the current environmental load value. However, the current environmental impact reduction effect cannot be quantitatively known.

  The present invention has been proposed in view of the above-described problems of the prior art, and an object of the present invention is to provide an information processing apparatus, an information processing system, and an information processing apparatus that can visualize an environmental load reduction effect even in a device after application of software. To provide a program.

  In order to achieve the above object, the present invention provides an information processing apparatus connected to a device via a network, the acquisition means for acquiring information about the device from the device, information about the device, and the information A first environmental load value calculating means for calculating a first environmental load value, which is a current environmental load value for each of the devices, based on a coefficient for converting the value into a predetermined environmental load value; Based on the above, the software applied to the device is specified, the product characteristic specifying means for specifying the product characteristic corresponding to the software, and the first environmental load value calculated by the first environmental load value calculating means A second environment for calculating a second environmental load value that is an environmental load value before the software is applied to the device based on the product characteristics of the software applied to the device Has a load value calculating means, and output means said first environmental load value and the second environmental load value to output the information that is visualized, the.

  With such a configuration, the information processing apparatus according to the present invention calculates the current environmental load value (current value) based on various information collected from each device. Subsequently, the information processing device is installed on the device and / or on the device different from the device, and the software product information that has an effect of reducing the environmental load on the device and the installation information before applying the software ( Calculate the environmental load value (assumed value when the product is not applied). As a result, the information processing apparatus provides analysis information in which the current environmental load value and the environmental load value before reduction can be compared.

  As a result, the information processing apparatus according to the present invention provides back-calculated environmental load values before mitigation from the current environmental load values based on product characteristics related to the environmental load of software, and provides analysis information that can be compared with each other. can do. As a result, the information processing apparatus can visualize the reduction effect even if it is already installed with software that reduces the environmental load, and can be easily disclosed to the user.

  In order to achieve the above object, the present invention provides an information processing system including a device management apparatus that manages a device and an information processing device that is connected to the device management apparatus via a network. And an acquisition unit that acquires information on the device from the device and transmits the information to the information processing device, and the information processing device converts the information on the device and the information into a predetermined environmental load value. And a first environmental load value calculating means for calculating a first environmental load value, which is a current environmental load value for each device, based on a coefficient for applying to the device based on information on the device Product characteristic specifying means for specifying software, product characteristics corresponding to the software, the first environmental load value calculated by the first environmental load value calculating means, and the function Second environmental load value calculating means for calculating a second environmental load value, which is an environmental load value before the software is applied to the device, based on the product characteristics of the software applied to the device; Output means for outputting information in which the environmental load value and the second environmental load value are visualized.

  In order to achieve the above object, the present invention provides a program for causing a computer to function as an information processing apparatus connected to a device via a network, the step of acquiring information related to the device from the device, and the device And calculating a first environmental load value, which is a current environmental load value for each device, on the basis of information on the information and a coefficient for converting the information into a predetermined environmental load value, and information on the device Based on the step of identifying the software applied to the device, identifying the product characteristic corresponding to the software, which is a characteristic relating to environmental load reduction, and calculating the first environmental load value Based on the first environmental load value and the product characteristics of the software applied to the device, the environmental load value before the software is applied to the device Calculating a certain second environmental load value, the first environmental load value and the second environmental load value to perform the step of outputting the analysis information are compared to the computer.

  According to the present invention, based on product characteristics related to the environmental load of software, the environmental load value before mitigation is calculated backward from the current environmental load value, and analysis information that can be compared with each other is provided. It is possible to provide an information processing apparatus, an information processing system, and a program that can visualize the environmental load reduction effect even with a later device.

It is a figure which shows the structural example of the equipment analysis system which concerns on the 1st Embodiment of this invention. It is a figure which shows the hardware structural example of the equipment analysis apparatus and equipment management apparatus which concern on the 1st Embodiment of this invention. It is a figure which shows the function structural example which the apparatus analyzer which concerns on the 1st Embodiment of this invention has. It is a figure which shows the example of data of the product information which concerns on the 1st Embodiment of this invention. It is a figure which shows the example of data of the installation information which concerns on the 1st Embodiment of this invention. It is a figure which shows the structural example of the analysis information generation part which concerns on the 1st Embodiment of this invention. It is a sequence diagram which shows the example of a process sequence which provides the analysis information which concerns on the 1st Embodiment of this invention. It is a figure which shows the operation example of the analysis information generation which concerns on the 1st Embodiment of this invention. It is a figure which shows the operation example of the analysis information provision which concerns on the 1st Embodiment of this invention. It is a figure which shows the function structural example (the 1) which the equipment analyzer which concerns on the modification of this invention has. It is a figure which shows the function structural example (the 2) which the equipment analyzer which concerns on the modification of this invention has.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention (hereinafter referred to as “embodiments”) will be described in detail with reference to the drawings.

[First Embodiment]
<System configuration>
A configuration of the instrument analysis system according to the present embodiment will be described.

FIG. 1 is a diagram illustrating a configuration example of a device analysis system 1 according to the present embodiment.
As shown in FIG. 1, in the device analysis system 1, at least one or more device management systems A to C to be analyzed are connected to a device analysis apparatus 100 via an external network I such as the Internet.

  The device management systems A to C are, for example, systems that are installed at a customer site and constructed in a specific area (local), while the device analysis device 100 is a device having a server function arranged on the manufacturer side. In general, a firewall (not shown) is installed between the device management systems A to C and the external network I in order to ensure the confidentiality of the device management systems A to C.

Device management system A~C is, LP (Laser Printer) 200 ₁ and MFP 200 ₂ such one or more devices 200, at least one or more client PC (Personal Computer) 300 (hereinafter, referred to as "PC".), And equipment A device management apparatus 400 that manages 200 is connected to each other via an internal network 90 such as a LAN (Local Area Network).

  In each device management system A, B, or C, various information (for example, device information such as “status information” and “job history information”) is acquired from the device 200 by the device management function of the device management apparatus 400, and the device The state of is monitored. Further, device information of the device 200 is provided from the device management apparatus 400 to the PC 300.

  With such a configuration, in the device analysis system 1, the device analysis device 100 collects various information from the device management devices 400 of the device management systems A to C via the external network I, and based on the collected information. Analysis can be performed and analysis results can be provided as analysis information.

  In the above description, the configuration in which the firewall is installed between the device management apparatus 400 and the external network I has been described. However, the device management apparatus 400 may have a firewall function. Good.

<Hardware configuration>
Next, hardware configurations of the device analysis apparatus 100 and the device management apparatus 400 will be described.

  FIG. 2 is a diagram illustrating a hardware configuration example of the device analysis apparatus 100 and the device management apparatus 400 according to the present embodiment. As shown in FIG. 2, the instrument analysis apparatus 100 and the instrument management apparatus 400 are both information processing apparatuses such as PCs. Therefore, in the following description, the instrument analysis apparatus 100 is taken as an example to represent both apparatuses. explain.

  As shown in FIG. 2, the instrument analyzer 100 includes an input device 101, a display device 102, a drive device 103, a RAM (Random Access Memory) 104, a ROM (Read Only Memory) 105, a CPU 106, an interface device 107, and an HDD ( (Hard Disk Drive) 108 and the like, which are connected to each other via a bus.

  The input device 101 includes a keyboard and a mouse, and is used to input each operation signal to the instrument analyzer 100. The display device 102 includes a display or the like, and displays a processing result (for example, “device analysis information”) by the device analysis device 100.

  The interface device 107 is an interface that connects the device analyzer 100 to a predetermined data transmission path 90 such as a network. Therefore, the device analysis apparatus 100 can perform data communication with the device management apparatus 400 via the interface device 107.

  The HDD 108 is a non-volatile storage device that stores various programs and data. The stored programs and data include, for example, an OS (Operating System) that is basic software such as an information processing system (for example, “Windows (registered trademark)” or “UNIX (registered trademark)”) that controls the entire device analyzer 100. ), And applications that provide various functions (for example, “instrument analysis function” and “analysis information providing function”) on the information processing system. The HDD 108 manages the stored programs and data by a predetermined file system and / or DB (Data Base).

  The drive device 103 is an interface with a removable recording medium 103a. Therefore, the instrument analyzer 100 can read and / or write the recording medium 103a via the drive device 103.

  The ROM 105 is a nonvolatile semiconductor memory (storage device) that can retain internal data even when the power is turned off. The ROM 105 stores data such as a BIOS (Basic Input / Output System) executed when the device analyzer 100 is activated, system settings of the device analyzer 100, and network-related settings.

  The RAM 104 is a volatile semiconductor memory (storage device) that temporarily stores programs and data read from the various storage devices.

  The CPU 106 executes the program read out on the RAM 104 to operate the overall control of the instrument analyzer 100 and various functions installed in the instrument analyzer 100.

  With such a hardware configuration, for example, the device analysis apparatus 100 can execute a program (a program for providing device analysis / analysis information) read from the HDD 108 onto the RAM 104 by the CPU 106 to realize a mounted function.

<Analysis information provision function>
Next, the analysis information providing function according to this embodiment will be described.

  In the device analysis apparatus 100 according to the present embodiment, the current environmental load value is calculated based on various information collected from each device 200. Subsequently, the device analysis device 100 is currently installed in a device different from the software product installed in the device 200 and / or product information of the software product that exerts an environmental load reduction effect on the device 200, and installation. Based on the information, calculate the environmental load value before applying the software product (before mitigation). As a result, the device analysis apparatus 100 provides analysis information in which the current environmental load value and the environmental load value before reduction can be compared. The instrument analyzer 100 has such an analysis information providing function.

  Conventionally, the analysis information provided to the user has not clearly represented the current environmental load reduction effect after the introduction of the device and / or the device management system.

  For example, when installed in a user, the device 200 and the device management apparatus 400 may already be equipped with software products that realize environmental load reduction. In such a case, since the values of various information collected from the device 200 and the device management apparatus 400 are values after reducing the environmental load, quantitatively know the environmental load reduction effect before the product is mounted. I can't.

  Therefore, the device analysis apparatus 100 according to the present embodiment performs back-calculation of the environmental load value before the reduction from the current environmental load value based on the product characteristics related to the environmental load of the software product, and the analysis information that can compare the values of each other. I will provide a.

  As a result, the device analysis apparatus 100 can visualize the reduction effect of the device 200 to which the software product that reduces the environmental load has already been applied. As a result, the user can clearly know the environmental load reduction effect.

  The configuration and operation of the analysis information providing function will be described below.

<Functional configuration>
FIG. 3 is a diagram illustrating an example of a functional configuration of the instrument analyzer 100 according to the present embodiment.

  As illustrated in FIG. 3, the device analysis apparatus 100 includes an information input unit 31, an information holding unit 32, an analysis information generation unit 33, an information provision unit 34, and the like.

  The information input unit 31 adds various information held by the information holding unit 32 and changes the information content using the input device 101 included in the device analysis apparatus 100. For example, the device analysis apparatus 100 is equipped with a predetermined information management tool, and a GUI (Graphical User Interface) is displayed on the screen of the display device 102 when the tool operates. The user adds various types of information and changes information contents using the keyboard that is the input device 101 via the displayed GUI.

  The information holding unit 32 stores and holds log information 41, device information 42, product information 43, installation information 44, and the like in a predetermined storage area. That is, the information holding unit 32 is a function of the HDD 108 provided in the device analysis apparatus 100, for example.

  The log information 41 is a log (record data) including an operation history (job history) of the device 200, an error history, various counter values, and the like. The device information 42 is device-specific data including device identification information (serial number), device specification information (for example, hardware information such as “installation option”), and the like.

  These pieces of information are included in various information collected from the device 200 by the device management apparatus 400. The device management apparatus 400 includes an information collection unit 21 and collects various types of information from a plurality of devices 200 to be managed by polling or trapping using SNMP (Simple Network Management Protocol), for example.

  Various information collected in this way is transmitted from the device management apparatus 400 to the device analysis apparatus 100. As a result, the device analysis apparatus 100 classifies the received data for each information type, and stores the classified data in a predetermined storage area of the information holding unit 32 prepared for each information type.

  Therefore, the log information 41 and the device information 42 are held in the information holding unit 32 by the method described above.

  On the other hand, the product information 43 relates to a software product that can be mounted on the device 200 and / or a software product that can be mounted on a device different from the device 200 (for example, “device management device”) and that has an environmental load reduction effect on the device 200. It is data. The installation information 44 is data relating to installation (introduction) of the software product. The product information 43 and the installation information 44 will be specifically described with reference to the drawings.

(Product information)
FIG. 4 is a diagram illustrating a data example of the product information 43 according to the present embodiment.

  As shown in FIG. 4, the product information 43 is configured by associating information items such as “product name” and “product characteristic”. “Product name” is product specifying data for specifying a software product. The “product characteristic” is product characteristic data indicating a characteristic regarding the environmental load (effect by the environmental load reduction function) when the software product is applied to the device 200.

  For example, the product information 43 shown in FIG. 4 shows an example of product characteristics in which when the software A is applied to the device 200, paper and toner consumption is reduced by 75% from before application. Other product characteristics include various types of printing, such as reduction rate of power consumption when not in operation, setting of maximum number of prints within a certain period of time (for example, “1 day”), monochrome printing, and conversion of print images by function into electronic data. There are restrictions.

  With such a data configuration, it is possible to acquire data relating to the environmental load when the software product is applied based on the product specifying data. The product information 43 can be managed (addition / update of information) by the information input unit 31 described above.

(Installation information)
FIG. 5 is a diagram illustrating a data example of the installation information 44 according to the present embodiment.

  As shown in FIG. 5, the installation information 44 is configured by associating information items such as “product name”, “installation destination”, and “product application device”. “Product name” is the above-described product specifying data. The “installation destination” is software product installation destination (installation destination) data. The “product application device” is product application data indicating the device 200 to which the product characteristic related to the environmental load of the installed (introduced) software product is applied.

  For example, the installation information 44 shown in FIG. 5 shows an example in which the software A is installed in the MFP 01, which is the device 200, and the product characteristics of the software A are applied to the MFP 01.

  Further, the environmental load reduction function by the software product may be applied to a plurality of devices 200 to be managed by operating on the device management apparatus 400 in addition to mounting the software product on the device 200. For example, power control is performed on a plurality of devices 200 to be managed by operating on the device management apparatus 400.

  In addition, as described above, it is also conceivable that the software product is operated by the device management apparatus 400. For example, if the device 200 is a third-party machine and a software product cannot be installed (introduced) into the device 200, or if more than 1000 devices 200 are to be managed, software products are installed (introduced) one by one for the device 200 ) Is difficult to do.

  Therefore, the installation information 44 is an information target for managing software products that have product characteristics in the device 200 when the software operates in addition to the software products installed (introduced) in the device 200.

  For example, in the installation information 44 shown in FIG. 5, the software B is installed on the server 01 that is the device management apparatus 400, and the product characteristics of the software B are applied to a plurality of devices 200 such as MFP 01 and MFP 02 managed by the server 01. An applied example is shown.

  With such a data structure, it is possible to acquire data relating to the installation destination (introduction destination) of the software product and the device to which the product characteristics are applied based on the product specifying data. Conversely, data relating to the software product applied to the device can be acquired based on the product application data. The installation information 44 can also be managed (addition / update of information) by the information input unit 31 described above. As for the installation information 44, if the function specification information (for example, software information such as “installed application”) is included in various information collected by the device management information 400, the log information 41 and the device information 42 described above are included. You may acquire and manage in the same way.

  The analysis information generation unit 33 calculates the current environmental load value and the environmental load value before reduction based on each information held by the information holding unit 32, and generates analysis information in which the values can be compared with each other. That is, this is a function for simulating the environmental load in the device 200. The analysis information generation unit 33 has a functional unit as shown in FIG.

FIG. 6 is a diagram illustrating a configuration example of the analysis information generation unit 33 according to the present embodiment.
As shown in FIG. 6, the analysis information generation unit 33 includes an environmental load value calculation unit 331, a calculation data acquisition unit 332, an environmental load value calculation unit 333 before reduction, and the like.

  The environmental load value calculation unit 331 calculates the current environmental load value based on the log information 41 and the device information 42 held by the information holding unit 32.

  In the present embodiment, the environmental load value is the CO2 emission amount. The CO2 emission amount can be calculated from various consumption amounts (for example, consumption amounts of “paper”, “toner”, etc.) collected from the device 200 using a predetermined coefficient. For example, in the case of paper, the predetermined coefficient is a value to be converted into a CO2 emission amount such as “[g] per one A4 new paper (non-recycled paper)”. The environmental load value calculation unit 331 holds such values for each conversion target.

  The environmental load value calculation unit 331 acquires various consumption amounts in the device 200 from the log information 41 and the device information 42, and calculates the CO2 emission amount from the acquired various consumption amounts using the predetermined coefficient. That is, the current environmental load value is calculated.

  The calculation data acquisition unit 332 acquires the calculation data of the pre-reduction environmental load value calculation unit 333 described later. The calculation data is included in the product information 43 and the installation information 44. Therefore, the calculation data acquisition unit 332 acquires the product information 43 and the installation information 44 as calculation data from the information holding unit 32.

  The pre-reduction environmental load value calculation unit 333 calculates an environmental load value before application of the software product based on the product information 43 and the installation information 44 acquired by the calculation data acquisition unit 332. In other words, the environment before the software product currently installed in the device 200 and / or the software product that is installed in a device different from the device 200 (for example, “device management device”) and that exerts an environmental load reduction effect on the device 200 is applied. Calculate the load value.

  First, the current environmental load value is passed from the environmental load value calculation unit 331 to the pre-reduction environmental load value calculation unit 333. Subsequently, the pre-reduction environmental load value calculation unit 333 identifies the software product applied to the device 200 for which the environmental load value has been calculated based on the installation destination data or product application data of the installation information 44. Subsequently, the pre-reduction environmental load value calculation unit 333 specifies a characteristic (product characteristic) related to the environmental load of the software product based on the product characteristic data of the product information 43. Thereby, the environmental load value calculation part 333 before reduction determines the calculation method which calculates the environmental load value before reduction. That is, a predetermined calculation formula for calculating the environmental load value before reduction is determined based on the product characteristics of the software product. As a result, the pre-reduction environmental load value calculation unit 333 substitutes the current environmental load value into the determined calculation formula, and calculates the pre-reduction environmental load value.

  The pre-reduction environmental load value calculation by the pre-reduction environmental load value calculation unit 333 will be described in detail in the functional operation.

  The information providing unit 34 provides analysis information capable of comparing the current environmental load value and the environmental load value before reduction. That is, this is a function for visualizing (rendering) the environmental load reduction effect in the device 200. The current environmental load value and the environmental load value before reduction are passed from the environmental load value calculation unit 331 and the pre-reduction environmental load value calculation unit 333 after calculation.

  The information providing unit 34 may directly display the analysis information, for example, on the screen of the display device 102 included in the device analysis apparatus 100. The information providing unit 34 may be configured to transmit the analysis information to the device management apparatus 400 so that the information can be viewed by the PC 300 connected to the device management system A, B, or C.

  As described above, the analysis information providing function according to the present embodiment is realized by the above-described function units operating in cooperation on the device analyzer 100.

  The detailed operation of the analysis information providing function (function unit group linking operation) will be described below with reference to a flowchart showing a processing procedure.

<Functional operation>
In the analysis information providing function, an analysis information providing program (software component) installed (installed) in the device analyzer 100 is read from the storage location (for example, “ROM”) onto the RAM 104 by the CPU 106, and the following processing is performed. Realized by being executed.

  FIG. 7 is a sequence diagram illustrating an example of a processing procedure for providing analysis information according to the present embodiment.

  As illustrated in FIG. 7, in the device analysis apparatus 100, the environmental load value calculation unit 331 included in the analysis information generation unit 33 accesses the information holding unit 32, and log information 41 and device information 42 held for each device. Is acquired (step S101).

  As a result, the environmental load value calculation unit 331 calculates the current environmental load value based on the acquired log information 41 and device information 42 (step S102). For example, the environmental load value calculation unit 331 multiplies the paper consumption obtained from the counter value (number of printed sheets) included in the log information 41 by a coefficient for converting the CO2 emission amount for a predetermined paper size, and prints. Obtain the environmental load value of the number of sheets.

  The environmental load value calculation unit 331 passes the calculated current environmental load value to the pre-reduction environmental load value calculation unit 333 included in the analysis information generation unit 33 (step S103).

  Subsequently, the pre-reduction environmental load value calculation unit 333 requests the calculation data acquisition unit 332 included in the analysis information generation unit 33 to acquire calculation data for calculating the environmental load value before reduction (step S201). ). At this time, the pre-reduction environmental load value calculation unit 333 transmits device specifying data that can specify the device 200 to be calculated to the calculation data acquisition unit 332.

  The calculation data acquisition unit 332 accesses the information holding unit 32 in response to the request, acquires the held product information 43 and installation information 44 as calculation data (step S202), and the request source environment before mitigation A response is made to the load value calculation unit 333 (step S203).

  When receiving the response, the pre-reduction environmental load value calculation unit 333 first refers to the installation destination data or the product application data of the installation information 44 acquired as the calculation data, and determines the device identification data of the device 200 to be calculated. Based on this, the software product applied to the device 200 is specified (step S204).

  Subsequently, the pre-reduction environmental load value calculation unit 333 refers to the product characteristic data of the product information 43 acquired as the calculation data, and reduces based on the characteristic (product characteristic) regarding the environmental load of the identified software product. The calculation method of the previous environmental load value (calculation formula used at the time of calculation) is determined (step S205).

  Subsequently, the pre-reduction environmental load value calculation unit 333 calculates the pre-reduction environmental load value from the current environmental load value received in step S103 according to the determined calculation method (using the calculation formula at the time of calculation) ( Step S206).

  The processing procedure of steps S204 to S206 will be described in detail based on an operation example of generating analysis information.

  FIG. 8 is a diagram illustrating an operation example of analysis information generation according to the present embodiment. In FIG. 8, the device 200 to be calculated is the MFP 01, and the current environmental load value V1 (CO2 emission conversion value) of the MFP 01 calculated by the environmental load value calculation unit 331 is “paper: 200” and “toner: An example of operation in the case of “100” is shown.

  When the referred installation information 44 is the data shown in FIG. 5, the pre-reduction environmental load value calculation unit 333 specifies that the software product applied to the MFP 01 is software A from the product application data.

  Subsequently, when the referred product information 43 is the data shown in FIG. 4, the pre-reduction environmental load value calculation unit 333 refers to the product characteristic data and refers to the characteristic (product characteristic) of the identified software A regarding the environmental load. ) To determine the environmental load value calculation method (calculation formula used at the time of calculation) before mitigation.

Since the product characteristic of the software A is “75% reduction in paper and toner consumption from before application”, the current environmental load value [Y] can be obtained by the following equation.
Current environmental load value [Y] = 0.25 * Environmental load value before reduction [X]
When the above equation is converted into an equation for calculating the environmental load value [X] before reduction, the following equation is obtained.
Environmental load value before reduction [X] = Current environmental load value [Y] /0.25
In this way, the pre-reduction environmental load value calculation unit 333 determines a calculation formula for calculating the pre-reduction environmental load value.

  As a result, the environmental load value calculation unit 333 before reduction substitutes the current environmental load value V1 of the MFP 01 into the determined calculation formula, and the environmental load value V2 before reduction (CO2 emission converted value after application of the product). Ask.

  For example, in the case of paper, the current environmental load value [200] of the MFP 01 is substituted into the calculation formula, and the environmental load value 800 (= 200 / 0.25) before reduction is obtained. In the case of toner, the current environmental load value [100] of the MFP 01 is substituted into the calculation formula, and the environmental load value 400 (= 100 / 0.25) before reduction is obtained.

  Returning to FIG. 7, the pre-reduction environmental load value V2 calculated in this way is passed from the pre-reduction environmental load value calculation unit 333 to the information providing unit 34 (step S207). The current environmental load value V1 is also passed from the environmental load value calculation unit 331 to the information providing unit 34.

  The information providing unit 34 provides analysis information whose values can be compared based on the current environmental load value V1 and the environmental load value V2 before reduction (step S301).

  The processing procedure of step S301 will be described in detail based on an operation example of providing analysis information.

  FIG. 9 is a diagram illustrating an operation example of providing analysis information according to the present embodiment. FIG. 9 shows an operation example in the case where the environmental load value V2 before mitigation of MFP 01 calculated by the operation example shown in FIG. 8 is included in the analysis information.

  As shown in FIG. 9, the information providing unit 34 receives the current environmental load value V1 and the environmental load value V2 before mitigation, and provides analysis information R that can be compared with each other. FIG. 9 shows an example in which a visualization format such as a bar graph (the shaded area in the figure is the environmental load value side before reduction) is used as the format for providing analysis information R.

  As described above, in the device analysis apparatus 100, the analysis information generation unit 33 calculates the current environmental load value V1 and the environmental load value V2 before reduction (before software product application) in the device 200. As a result, the calculated value is passed to the information providing unit 34, and the information providing unit 34 provides analysis information R that can be compared with each other. Thereby, the environmental load reduction effect in the apparatus 200 is visualized.

  In the above description, the processing procedure for analyzing and providing information on the environmental load in one device 200 has been described. The information holding unit 32 holds various pieces of information of the plurality of devices 200 managed by the device management systems A, B, and C. From this, the current environmental load value can be calculated in a lump, and furthermore, the environmental load value before reduction can also be calculated in a lump. Therefore, the device analysis apparatus 100 can perform analysis and information provision regarding the environmental load in all the devices 200 to be managed. That is, the processing procedures of steps S101 to S103 and steps S201 to S207 can be performed for all the devices 200 to be managed, and can be collectively provided in step S301.

<Modification>
From here, the modification of the function structure which the apparatus analyzer 100 mentioned above has is demonstrated. For example, the functional configuration shown in FIGS. 10 and 11 may be used.

  FIG. 10 is a diagram illustrating a functional configuration example (part 1) of the instrument analysis apparatus 100 according to the present modification.

  The difference between the functional configuration illustrated in FIG. 10 and the functional configuration according to the above-described embodiment is that the device analysis apparatus 100 includes the information collection unit 21. In the above-described embodiment, the device management apparatus 400 includes the information collection unit 21, and various types of information are collected from the device 200 by a device different from the device analysis apparatus 100.

  The device analysis apparatus 100 according to this modification may have a configuration having both a device management function including information collection and an analysis information providing function.

  In the case of such a configuration, the analysis information R can be generated and provided on the basis of various information collected from the device 200 in each of the device management systems A, B, and C constructed at the customer site. . Accordingly, the device analysis apparatus 100 visualizes the environmental load reduction effect even when the user prioritizes the confidentiality of various information collected from the device 200 (when the collected information is not desired to be transmitted to the outside). It can be disclosed to the user.

  FIG. 11 is a diagram illustrating a functional configuration example (part 2) of the instrument analysis apparatus 100 according to the present modification.

  The difference between the functional configuration shown in FIG. 11 and the functional configuration according to the above embodiment is that different devices have the information input unit 31 and the information holding unit 32, the analysis information generation unit 33, and the information provision unit 34. is there. In the above embodiment, the same apparatus has the information holding unit 32, the analysis information generating unit 33, and the information providing unit 34.

  In this modification, an information management apparatus 500 such as a DB server has an information input unit 31 and an information holding unit 32, and manages various information collected from the device 200 in a lump. The device analysis apparatus 100 includes an analysis information generation unit 33 and an information provision unit 34, acquires log information 41, device information 42, product information 43, and installation information 44 from the information management device 500 as necessary, and analyzes them. The structure which produces | generates and provides the information R may be sufficient.

  In such a configuration, even when there are a considerable number of devices 200 to be managed (for example, “thousands” or “tens of thousands”), the information management function and the analysis information providing function are separated from each other. By operating the apparatus, the processing load can be distributed. Thereby, it is possible to prevent an adverse effect on the user's feeling of use due to the processing time (for example, “response delay to information request”).

  Further, in the case of an analysis information providing function composed only of the analysis information generating unit 33 and the information providing unit 34, if a procedure (for example, “network address”) relating to access to the information holding unit 32 can be designated, a plug-in or the like It can also be provided as a function expansion program.

<Summary>
As described above, according to the device analysis apparatus 100 according to the present embodiment, the environmental load value V2 before the reduction is calculated from the current environmental load value V1 based on the product characteristics related to the environmental load of the software product, Analytical information R whose values can be compared is provided.

  As a result, the device analysis apparatus 100 can visualize the reduction effect of the device 200 to which the software product that reduces the environmental load has already been applied, and can be easily disclosed to the user.

  The above embodiment has been described so far, but the “analysis information providing function” of the device analysis apparatus 100 according to the above embodiment is a programming language suitable for the operation environment (platform). The coded program is implemented by the CPU 106.

  The program can be stored in a computer-readable recording medium 103a. For example, the recording medium 103a includes a floppy (registered trademark) disk, a CD (Compact Disk), a DVD (Digital Versatile Disk), an SD memory card (SD Memory Card), and a USB (Universal Serial Bus) memory.

  Thus, the program can be installed in the instrument analyzer 100 via the drive device 103 that can read the recording medium 103a, an external storage I / F (not shown), or the like. In addition, since the device analysis apparatus 100 includes the interface device 107, the program can be downloaded and installed using an electric communication line such as the Internet.

  Finally, the present invention is not limited to the requirements shown here, such as combinations of other elements with the shapes and configurations described in the above embodiments. With respect to these points, the present invention can be changed within a range that does not detract from the gist of the present invention, and can be appropriately determined according to the application form.

DESCRIPTION OF SYMBOLS 1 Device analysis system 21 Information collection part 31 Information input part 32 Information holding part 33 Analysis information generation part (simulator)
331 Environmental load value calculation unit 332 Calculation data acquisition unit 333 Pre-reduction environmental load value calculation unit 34 Information provision unit (renderer)
41 Log information 42 Device information 43 Product information 44 Installation information 90 Internal network (LAN)
100 Instrument Analyzer (Equipment Analysis Server)
101 Input Device 102 Display Device 103 Drive Device (a: Recording Medium)
104 RAM (volatile semiconductor memory)
105 ROM (nonvolatile semiconductor memory)
106 CPU (Central Processing Unit)
107 Interface device (NIC: Network I / F Card)
108 HDD (nonvolatile storage device)
200 equipment (image processing device)
300 Client PC (information processing device)
400 Device management device (device management server)
500 Information management device (DB server)
A, B, C Device management system I External network (Internet)

JP 2003-33750 A JP 2003-99777 A

Claims (9)

An information processing apparatus connected to a device via a network,
Obtaining means for obtaining information on the device from the device;
A first environmental load value that calculates a first environmental load value, which is a current environmental load value for each device, based on information on the device and a coefficient for converting the information into a predetermined environmental load value A calculation means;
Based on the information on the device, the software applied to the device is identified, the product characteristic identifying means for identifying the product characteristic corresponding to the software,
Based on the first environmental load value calculated by the first environmental load value calculation means and the product characteristics of the software applied to the device, the environmental load value before the software is applied to the device Second environmental load value calculating means for calculating a second environmental load value,
Output means for outputting information in which the first environmental load value and the second environmental load value are visualized;
An information processing apparatus comprising:   The information processing apparatus according to claim 1, wherein the product characteristic is a characteristic relating to environmental load reduction.   The information processing apparatus according to claim 1, wherein the product characteristics further constitute product information by being associated with software having the product characteristics.   4. The information processing apparatus according to claim 3, further comprising holding means for holding the product information, information about a device to which software having the product characteristics is applied, and information about the device.   5. The information processing apparatus according to claim 1, wherein the first environmental load value is a value when an environmental load due to operation of the device is reduced by the software. 6. . The product characteristics indicate a reduction rate at which an environmental load is reduced when the software is applied to the device,
The second environmental load value calculating means uses the first environmental load value as a parameter to calculate the second environmental load value before application of an existing product that is software installed at a customer site. The information processing apparatus according to claim 1, wherein a calculation formula using the reduction rate as a coefficient is determined.   The second environmental load value calculation means substitutes the first environmental load value for the parameter of the calculation formula, and calculates the second environmental load value before the software is applied to the device. The information processing apparatus according to claim 6. An information processing system comprising: a device management device that manages devices; and an information processing device that is connected to the device management device via a network,
The device management apparatus
From the device, it has acquisition means for acquiring information about the device and transmitting it to the information processing device,
The information processing apparatus includes:
A first environmental load value that calculates a first environmental load value, which is a current environmental load value for each device, based on information on the device and a coefficient for converting the information into a predetermined environmental load value A calculation means;
Based on the information on the device, the software applied to the device is identified, the product characteristic identifying means for identifying the product characteristic corresponding to the software,
Based on the first environmental load value calculated by the first environmental load value calculation means and the product characteristics of the software applied to the device, the environmental load value before the software is applied to the device Second environmental load value calculating means for calculating a second environmental load value,
Output means for outputting information in which the first environmental load value and the second environmental load value are visualized;
An information processing system comprising: A program that causes a computer to function as an information processing apparatus connected to a device via a network,
Obtaining information about the device from the device;
Calculating a first environmental load value, which is a current environmental load value for each device, based on information on the device and a coefficient for converting the information into a predetermined environmental load value;
Identifying the software applied to the device based on the information about the device, and identifying the product characteristic corresponding to the software, which is a characteristic relating to environmental load reduction;
The environment before the software is applied to the device based on the first environmental load value calculated in the step of calculating the first environmental load value and the product characteristics of the software applied to the device. Calculating a second environmental load value which is a load value;
Outputting analysis information in which the first environmental load value is compared with the second environmental load value;
For causing the computer to execute.

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