KR100997647B1 - Method of centralized network power management and system thereof - Google Patents

Abstract

PURPOSE: A centralized network power management method and a system thereof for efficiently reducing unnecessary power consumption wasted due to the use of a client device are provided to easily perform power management for a plurality of client devices by supplying power use information through a statistical report. CONSTITUTION: At least one client device collects configuration information(S500). A host server extracts a power management profile from database(S520). One or more client device sets up the power management profile from the host server(S521). One or more client device calculates power consumption and power-saving quantity(S531). The host server periodically offers the power use information.

Description

Centralized network power management method and system {METHOD OF CENTRALIZED NETWORK POWER MANAGEMENT AND SYSTEM THEREOF}

The present invention relates to a centralized network power management method and system thereof, and more particularly, to a host server connected to the same network for power management of a plurality of client devices connected to an Internet protocol network. Server not only measures, collects, and saves power usage of each client device, but also provides dashboard and statistics on power usage information such as power consumption and savings, power consumption and savings, and carbon emissions and reductions. By providing various forms through reports, etc., centralized management facilitates power management of a large number of client devices and efficiently reduces unnecessary power consumption wasted due to waiting for use of client devices. It relates to a method and system power management framework.

With the continuous increase in energy consumption and the rapid increase in the cost of resource energy, there is a growing awareness that measures to improve energy efficiency are the most realistic means to cope with high oil prices and tightening environmental regulations.

The highest power consumption among IT devices worldwide is computer equipment, which accounts for 40% of the total power consumption, and the global computer power consumption is about 80 billion KW / h annually, of which two-thirds are defenseless. In terms of money, about $ 5.4 billion of energy is disappearing into the air.

To reduce wasted computer power consumption, you can prevent unnecessary power consumption by putting the standby computer into sleep mode or turning off the computer during off hours, but more than 80% of computer users turn off the computer at night. Only 50% is a problem that unnecessary computer power consumption is wasted.

In general, Windows-based computers are installed with the Windows Power Manager, an automated computer power management program that can prevent unnecessary power consumption by setting the standby computer to sleep mode. In addition, they cannot be utilized for power consumption and savings, power consumption and savings, carbon emissions and reductions, and thus cannot be used for monitoring or statistical analysis of the entire power consumption of the computer network. have.

The problem to be solved by the present invention is to centrally manage power management for a plurality of client devices connected to the Internet protocol network through a centralized network power management method and the system in one host server connected to the same network, each of the client devices Not only measure and collect power usage, but also provide power usage information such as power consumption and savings, power consumption and savings, and carbon emission and reduction of client devices in various forms through dashboards and statistical reports. It facilitates power management of client devices and efficiently reduces unnecessary power consumption wasted due to standby of client devices.

The centralized network power management method according to the present invention comprises the steps of collecting the configuration information of the at least one client device by the host server; Assigning, by a host server, a power management profile for the at least one client device; At least one client device applying the power management profile; At least one client device measuring power usage in accordance with the applied power management profile; And receiving, by the host server, the measured power usage and providing power usage information to the at least one client device.

The collecting of the configuration information of the at least one client device may be performed by the configuration information collector of the at least one client device when the configuration information of the at least one client device is initialized or when the configuration information of the at least one client device is changed. Acquiring configuration information about an operating system, hardware, and a specification of the at least one client device upon receiving the event; Transmitting, by the first message transceiver of the at least one client, the obtained configuration information to a host server; The host server staying in a standby state to receive an event due to the configuration information change; And receiving, by the host server, configuration information of the at least one client device.

The specifying of the power management profile may include: receiving, by a power management profile manager of the host server, configuration information from the at least one client device through a second message transceiver; Storing the configuration information in a database through a database processor of the host server; Extracting a power management profile corresponding to the at least one client device that has transmitted the configuration information from the database via the database processor; Transmitting the power management profile to the at least one client device that has transmitted the configuration information through the second message transceiver; And staying in a message waiting state to receive a transmission message from the at least one client device.

The applying of the power management profile may include: receiving, by a power management profile setter of the at least one client device, a power management profile from the host server through a first message transceiver; Setting, by the power management profile setter of the at least one client device, the power management profile by day of the week and time zone; And the at least one client device staying in a message waiting state to receive a transmission message from the host server.

In addition, the step of measuring the power usage is due to the power management profile set by the power usage meter of the at least one client device transitions due to the startup, termination, standby and / or resumption of use of the at least one client device Receiving, at the at least one client device from the host server, a power management profile change event for a normal state, a standby state, a suspended state, a hibernated state, and / or an end state; Calculating power consumption and savings according to the type of the power management profile change event by a power usage meter of the at least one client device; Sending the calculated power consumption and savings to a host server through a first message transceiver of the at least one client device; And the host server staying in a standby state to receive the power management state change event.

The providing of the power usage information to the at least one client device may further include: receiving, by the power usage information provider of the host server, power consumption and savings from the at least one client device through a second message transceiver; Storing power consumption and savings of the at least one client device that have transmitted power consumption and savings through a database processor of the host server; Power consumption, power savings by day, week, month, and / or year for the at least one client device based on the power consumption and savings of the at least one client device accumulated in the database by the host server Calculating carbon emissions, carbon reductions, power usage costs, and / or power savings costs and providing power usage information to the at least one client device via a dashboard or statistical report; And the host server staying in a message reception waiting state to receive a transmission message from the at least one client device.

In addition, the centralized network power management system according to the present invention includes at least one client device for applying a power management profile and measuring power usage; A host server configured to set a power management profile and provide power usage information for the at least one client device; A database for storing the power management profile and power usage information; And an internet protocol network for interconnecting the at least one client device with the host server.

The at least one client device may further include a first message transceiver configured to transmit and receive messages between the at least one client device and the host server; A configuration information collector which acquires configuration information of the at least one client device and transmits the configuration information to the host server through the first message transceiver; A power management profile setter configured to receive a power management profile from the host server to set a power management profile of the at least one client device; And a power usage measurer configured to measure the power usage of the at least one client device and transmit the calculated power consumption and saving amount message to the host server through the first message transceiver.

The host server may further include a second message transceiver configured to transmit and receive messages between the at least one client device and the host server; A power management profile manager configured to store the configuration information received through the second message transceiver in the database, extract a power management profile from the database, and transmit the configuration information to the at least one client device that has transmitted the configuration information; Storing the power consumption and power savings messages received from the at least one client device through the second message transceiver in the database, and based on the cumulative power consumption and power savings of the at least one client device; Provides electricity usage information to provide electricity usage information through dashboards or statistical reports by calculating electricity consumption, electricity savings, carbon emissions, carbon reductions, electricity use costs and / or power savings costs weekly, monthly and / or yearly group; And a database processor for extracting data from or storing data in the database according to a request of the power management profile manager or the power usage information provider.

The power management profile for power management of the centralized network power management system may include: an end state in which power of the at least one device is turned off so that power is hardly supplied; A normal state in which power is supplied to a maximum when the power is turned on; A standby state in which power of the at least one device is supplied at low power; A suspended state in which power of the at least one device is supplied with a minimum; And a hibernation state in which the power of the at least one device is not supplied, and the standby state if the use of the at least one device is continuously waited until the predetermined normal state standby time is exceeded in the normal state. Transitions to the normal state and resumes the use of the at least one device before the predetermined standby state standby time is exceeded in the standby state, and transitions to the normal state and continues until the predetermined standby state standby time is exceeded. Thus, when the use of the at least one device is awaiting the transition to the suspended state or the hibernate state, and resumes the use in the suspended state or the hibernate state can be transitioned to the normal state.

The present invention collectively manages power management of a plurality of client devices connected to an Internet protocol network in one host server connected to the same network to measure, collect, and store power consumption of each client device, and based on the power consumption of the client devices. It provides power usage information such as savings, power consumption and savings, carbon emissions and reductions in various forms through dashboards and statistical reports, and facilitates power management of multiple client devices and uses of client devices. This effectively reduces unnecessary power consumption due to the atmosphere.

1 illustrates a centralized network power management and power measurement system according to an embodiment of the present invention.
2 illustrates a client device of a centralized network power management and power measurement system according to an example of the present invention.
3 shows a host server of a centralized network power management and power measurement system according to the present invention.
4 is a power management profile transition diagram of a centralized network power management and power measurement system according to the present invention.
5A and 5B are a flowchart illustrating centralized network power management and power measurement according to the present invention.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, only the embodiments are to make the disclosure of the present invention complete, and those skilled in the art to which the present invention pertains. It is provided to fully inform the scope of the invention, and the invention is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

1 illustrates a centralized network power management system according to an embodiment of the present invention. Referring to FIG. 1, the centralized network power management system 10 includes at least one client device 100, a host server 110, a database 120, and an internet protocol network 130.

The at least one client device 100 applies a power management profile and measures power usage to a device such as a desktop or a notebook. In this case, for example, the device may correspond to a computer, but the device of the present invention is not limited thereto.

The host server 110 performs power management profile setting and power usage information provision for the at least one client device 100, and the database 120 stores the power management profile and power usage information. In this case, the database 120 is illustrated as being located outside the host server 110 in FIG. 1, but the scope of the present invention is not limited thereto. For example, the database 120 may be located inside the host server 110.

The internet protocol network 130 interconnects at least one client device 100 and a host server 110.

2 shows a structural diagram of a client device of a centralized network power management system. Referring to FIG. 2, the client device 100 includes a configuration information collector 210, a power management profile setter 220, a power usage meter 230, and a first message transceiver 240.

The configuration information collector 210 obtains device configuration information about an operating system, a hardware device, and a specification of the client device 100, and transmits the device configuration information to the host server 110.

The power management profile setter 220 receives a power management profile from the host server 110 to set a power management profile of the client device 100.

The power usage meter 230 transmits a power consumption and a savings message calculated by measuring the power usage of the client device 100 to the host server 110.

The first message transceiver is responsible for message transmission and reception between the client device 110 and the host server 120.

Figure 3 shows the internal structure of the host server of the centralized network power management system. Referring to FIG. 3, the centralized network power management system 110 includes a power management profile manager 310, a database processor 320, a power usage information provider 330, and a second message transceiver 340.

The power management profile manager 310 extracts the device power management profile from the database 120 and transmits the configuration information to the client device 100 that has transmitted the configuration information.

The power usage information provider 330 receives the power consumption amount and the saving amount from the client device 100, stores the power consumption amount and the saving amount in the database 120, and stores the power consumption amount and the saving amount of the client device 100 accumulated in the database 120. Based on the date, week, month, and year for the client device 100, power consumption, power savings, carbon emissions, carbon reduction, power usage cost, power savings, etc. Provides power usage information.

For example, the power usage information provider 330 may analyze the power usage data collected for each client device 100 to determine whether there is a client device 100 that uses more than a preset usage (eg, average usage). In this case, the client device 100 (or administrator) can be analyzed by analyzing whether it is a temporary phenomenon (eg, 5 minutes every 30 seconds) or a persistent phenomenon (or a more power-consuming phenomenon), and generating an alarm if necessary. Can be. In this case, the client device 100 may automatically check the process status (eg, power management status, CPU usage, or other resource usage) through the power usage meter 230 when the notification is received, and if necessary, It may transmit to the host server through the first message transceiver 240. In addition, after the notification, the client device 100 automatically readjusts the message transmission period (report period) through the power usage meter 230 or sets an alarm management level (eg, a power on / off state, a reception period, or the like). Other grades, etc.) can be readjusted.

The database processor 320 extracts data from the database 120 or stores data in the database 120 according to a request of the power management profile manager 310 or the power usage information provider 330.

The second message transceiver 340 is responsible for sending and receiving messages between the client device 100 and the host server 110.

4 is a power management profile transition diagram of a centralized network power management system. Referring to FIG. 4, the power management profile includes a normal state S0, a standby state S1, a suspended state S3, a hibernate state S4, and an end state S5, wherein the states are different states. It may also include a process of transition to.

The normal state S0 is a state in which the device power is turned on and the device power is supplied to the maximum, and the standby state S1 is a state in which the device power is turned on and the device power is supplied at low power, and the suspended state S3. Is a state in which the device power is turned on and the device power is supplied to the minimum, and the hibernation state S4 is a state in which the device power is turned on but the device power is hardly supplied, and the end state S5 is the device power turned off. There is little power supplied.

Looking at the power management profile transition for the client device 100 in detail, when the power is turned on in the termination state (S5) is transitioned to the normal state (S0), the normal state using standby time predetermined in the normal state (S0) If it continues to wait for device use until it exceeds, it will transition to the standby state S1.

If the device resumes use before the predetermined standby state standby time is exceeded in the standby state (S1), the device transitions to the normal state (S0) but continues to wait until the predetermined standby state standby time is exceeded. The device transitions to the suspended state (S3) where the device power is supplied to the minimum, or to the hibernated state (S4) where the device power is hardly supplied, and resumes its use in the suspended state (S3) or in the hibernated state (S4). Transition to S0).

5A and 5B are flowcharts illustrating a centralized network power management method according to an embodiment of the present invention. The centralized network power management method includes collecting configuration information of client devices 100 (S500 to S502 and S510); Designating a power management profile for the client devices 100 (S610 to S613 and S600); Applying a power management profile to the client devices 100 (S520 through S521 and S502); Measuring power usage of the client devices 100 (S530 to S532 and S502); Providing power usage information of the client devices 100 (S620 to S622 and S600).

5A and 5B, in the collecting of the configuration information of the at least one client device 100, the configuration information collector 210 of the client device 100 may be initialized by the device startup or may be changed by the device configuration information change. Upon receiving an event (A), obtain configuration information on a device operating system, a hardware device, and specifications (S500), and transmit the obtained configuration information to the host server 110 through the message transceiver 240 (S501), In order to receive the configuration information change event, the device stays in a standby state (S502), and receives a configuration information change event generated when the configuration information is changed (S510).

In the step of designating a power management profile for at least one client device 100, the power management profile manager 310 of the host server 110 receives configuration information from the client device 100 through the second message transceiver 340. Received (S610), and stores the configuration information of the client device 100 that transmitted the configuration information to the database 120 through the database processor 320 (S611), from the database 120 through the database processor 320 The power management profile corresponding to the client device 100 that transmits the configuration information is extracted (S612), and the power management profile extracted from the database 120 to the client device 100 that transmits the configuration information through the message transceiver 340. (S613), and then (C), receiving a message to receive a transmission message from the client device 100 Stay in the standby state (S600).

In the step of applying the power management profile to the at least one client device 100, the power management profile setter 210 of the client device 100 receives the power management profile from the host server 110 through the message transceiver 240. Receive (S520), and set / apply power management profiles such as normal state (S0), standby state (S1), suspended state (S3), hibernating state (S4), etc. by day and time zone (S521), and then ( B), in order to receive the transmission message from the host server 110, it stays in the message reception waiting state (S502).

In the step of measuring power usage of the at least one client device 100, due to the power management profile set by the power usage meter 230 of the client device 100 due to the start or end of the device, standby of use, resumption of use, etc. Receive the power management profile change event for the normal state (S0), standby state (S1), stop state (S3), hibernate state (S4), and end state (S5) to be transitioned (S530), and the power management profile change event Calculate the power consumption and saving amount according to the type (S531), and transmits the calculated power consumption and saving amount to the host server 110 through the first message transceiver 240 (S532), then (B), power management It stays in a waiting state to receive a profile change event (S502).

In the step of providing power usage information of the at least one client device 100, the power usage information provider 330 of the host server 110 may receive power consumption from the client device 100 through the second message transceiver 340. Receive the savings (S620), and stores the power consumption and savings of the client device 100 that transmitted the power consumption and the savings to the database 120 through the database processor 320 (S621), and accumulates in the database 120 Power consumption, power savings, carbon emissions, carbon savings, power usage costs, and power savings costs by day, week, month, and year for the client devices 100 based on the stored power consumption and savings of the client devices 100. And provide various types of power usage information through dashboards or statistical reports (S622), and then (C), In order to receive the transmission message from the client device 100, the message stays in the message reception waiting state (S600).

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, and the like. The program code for performing the object information estimation method according to the present invention may be a carrier wave. It may also be transmitted in the form of (for example, transmission via the Internet).

The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. And functional programs, codes and code segments for implementing the present invention can be easily inferred by programmers in the art to which the present invention belongs.

As described above, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: Centralized Network Power Management System
100: client device, 110: host server
120: database, 130: Internet Protocol Network

Claims (10)

In the centralized network power management and power measurement method,
Collecting, at at least one client device, configuration information including an operating system, a hardware device, and a specification of the at least one client device;
Receiving the configuration information at a host server, storing the configuration information in a database, and extracting a power management profile from the database;
Receiving the power management profile from the host server at the at least one client device to set a power management profile;
Calculating power consumption and savings by measuring power usage at the at least one client device;
The host server receives the power consumption and saving information calculated from the at least one client device and stores the calculated power consumption and saving information in the database, and stores the power consumption and saving information in the database based on the accumulated power consumption and the savings of the at least one client device. Calculating power consumption, power savings, carbon emissions, carbon reductions, power usage costs, and power saving costs for each day, week, month, and year for the power supply information through a dashboard or a statistical report; And
The host server compares each of the calculated power consumption, power saving, carbon emission, carbon reduction, power usage cost, and power saving cost with a preset reference amount and generates an alarm according to the result to notify the at least one client. Steps,
The centralized network power management and power measurement method of the power usage information providing period and the alarm management class is adjusted by the at least one client device. The method of claim 1, wherein the collecting of the configuration information
When the configuration information collector of the at least one client device is initialized by starting the at least one client device or when an event is received by a configuration information change of the at least one client device, an operating system and hardware of the at least one client device And obtaining configuration information about the specification.
Transmitting, by the at least one client, the obtained configuration information to the host server;
The host server staying in a standby state to receive an event due to the configuration information change; And
And receiving, by the host server, configuration information of the at least one client device. The method of claim 1, wherein extracting the power management profile comprises:
Receiving, by the power management profile manager of the host server, the configuration information from the at least one client device;
Storing, by the host server, the configuration information in a database through a database processor;
Extracting, by the host server, a power management profile corresponding to the at least one client device that has transmitted the configuration information from the database through the database processor;
Transmitting, by the host server, the power management profile to the at least one client device that has transmitted the configuration information; And
And the host server staying in a message reception waiting state to receive a transmission message from the at least one client device. The method of claim 1, wherein the setting of the power management profile
The power management profile setter of the at least one client device receiving a power management profile from the host server;
Setting, by the power management profile setter of the at least one client device, the power management profile by day of the week and time zone; And
And the at least one client device staying in a message waiting state to receive a transmission message from the host server. The method of claim 1, wherein the calculating of power consumption and savings
Normal state, standby, wherein the at least one client device transitions due to startup, termination, standby, or resumption of the at least one client device by a power management profile set by the power usage meter of the at least one client device Receiving a power management profile change event for the status, suspended, hibernated, or terminated state from the host server;
Calculating, by the power usage meter of the at least one client device, power consumption and savings according to the type of power management profile change event;
The at least one client device sending the calculated power consumption and savings to a host server; And
And the host server staying in a standby state to receive the power management profile change event. The method of claim 1, wherein the periodically providing the power usage information
Receiving, by the power usage information provider of the host server, power consumption and savings from the at least one client device;
Storing, by the host server, a power consumption and a savings amount of the at least one client device having transmitted the power consumption and the savings through a database processor in a database;
Power consumption, power savings, carbon per day, week, month, and year for the at least one client device based on the power consumption and the savings of the at least one client device accumulated by the host server in the database. Calculating power consumption, carbon reduction amount, power usage cost, and power saving cost and periodically providing power usage information to the at least one client device through a dashboard or a statistical report; And
And the host server staying in a message reception waiting state to receive a transmission message from the at least one client device. At least one client device;
A host server configured to set a power management profile and provide power usage information to the at least one client device;
A database for storing the power management profile and power usage information; And
An internet protocol network for interconnecting said at least one client device with said host server,
The at least one client device
A configuration information collector configured to collect configuration information including an operating system, a hardware device, and a specification of the at least one client device;
A power management profile setter configured to receive a power management profile from the host server to set a power management profile of the at least one client device; And
A power usage meter for measuring power consumption of the at least one client device and calculating power consumption and savings;
The host server
A power management profile manager configured to receive the configuration information from the at least one client device and store it in the database, extract a power management profile from the database, and transmit the configuration information to the at least one client device that has transmitted the configuration information;
Receiving and storing the power consumption and savings information calculated from the at least one client device in the database, and for each of the at least one client device based on accumulated power consumption and savings of the at least one client device, Calculate power consumption, power savings, carbon emissions, carbon reductions, power usage costs, and power savings costs weekly, monthly, and yearly, and periodically provide power usage information through dashboards or statistical reports. A power usage information provider which compares each of the power saving amount, carbon emission amount, carbon reduction amount, power usage cost, and power saving cost with a preset reference amount and generates an alarm according to the result to notify the at least one client; And
A database processor for extracting data from or storing data in the database according to a request of the power management profile manager or the power usage information provider;
And a power usage meter of the at least one client device adjusts a period for providing the power usage information and adjusts a management level of the alarm. The method of claim 7, wherein the at least one client device is
Centralized network power management and power measurement system further comprising a first message transceiver for transmitting and receiving various information between the at least one client device and the host server. The method of claim 8, wherein the host server
And a second message transceiver configured to transmit and receive various types of information between the at least one client device and a host server. The power management profile of claim 7, wherein the power management profile for power management of the centralized network power management system is
An end state in which the power is not supplied because the at least one device is turned off;
A normal state in which power is supplied to a maximum when the power is turned on;
A standby state in which power of the at least one device is supplied at low power;
A suspended state in which power of the at least one device is supplied with a minimum; And
A hibernate state in which power of the at least one device is not supplied;
In the normal state, if the continuous use waits for the use of the at least one device until the predetermined normal use time is exceeded, the state transitions to the standby state,
In the standby state, if the use of the at least one device is resumed before a predetermined standby state standby time is exceeded, the state transitions to the normal state,
If the device continues to wait for the use of the at least one device until the predetermined standby state standby time is exceeded, the state transitions to the suspended state or the hibernate state,
A centralized network power management and power measurement system which transitions to said normal state upon resuming use in said suspended or hibernated state.

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