CN110687996B - Data processing method, equipment and system - Google Patents

Abstract

The application provides a data processing method, equipment and a system, wherein the method comprises the following steps: obtaining a first power consumption parameter set of a first device under different environment parameters in a target environment; wherein the first device is a device for changing an environmental parameter of a target device, wherein the target device is located in the target environment; obtaining a second power consumption parameter set of a second device under different environment parameters of the target environment; determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set; determining a target environment parameter corresponding to the target power consumption; controlling the second device such that the environmental parameter of the target environment is the target environmental parameter. The total power consumption of the equipment can be reduced on the whole through the method and the device.

Description

Data processing method, equipment and system

Technical Field

The present application relates to the field of data processing technologies, and in particular, to a data processing method, device, and system.

Background

At present, for an equipment center with a plurality of pieces of equipment, the problems of energy conservation and emission reduction are always concerned by the industry.

Specifically, in an environment where the device center is located, that is, when the target environment includes the target device, the first device for changing the environmental parameter of the target device, and the second device for changing the environmental parameter of the target environment, in order to prevent the setting of the environmental parameter from being too large, so that the power consumption parameter of the target device increases, the setting of the environmental parameter at a smaller parameter value by the second device may be adopted, but in practice, this method cannot reduce the power consumption as a whole.

Disclosure of Invention

In view of the above, the present application provides a data processing method, device and system to solve the above technical problems.

In order to achieve the above purpose, the present application provides the following technical solutions:

a method of data processing, comprising:

obtaining a first power consumption parameter set of a first device under different environment parameters in a target environment; wherein the first device is a device for changing an environmental parameter of a target device, wherein the target device is located in the target environment;

obtaining a second power consumption parameter set of a second device under different environment parameters of the target environment; determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set;

determining a target environment parameter corresponding to the target power consumption;

controlling the second device such that the environmental parameter of the target environment is the target environmental parameter.

Preferably, the first power consumption parameter set represents the same variation trend as that of the environmental parameter of the target environment; the second power consumption parameter set represents a trend of change opposite to a trend of change of the environmental parameter of the target environment.

Preferably, the target power consumption meeting the first condition is the power consumption with the minimum sum of the power consumption parameters in the sum set of the power consumption parameters; the sum of the power consumption parameters is the sum of a first power consumption of the first power consumption parameter set and a second power consumption of the second power consumption parameter set under different environment parameters.

Preferably, the environmental parameter of the target environment is a temperature parameter, and the first device is configured to adjust its own working mode according to the temperature parameter of the target device, and has different first power consumption parameters in different working modes;

the second device is used for adjusting the temperature parameter of the target environment and has different second power consumption parameters under different temperature parameters;

preferably, the method further comprises the following steps:

adjusting the second device multiple times to enable the target environment to be at different environment parameters;

correspondingly, the obtaining a first power consumption parameter set of the first device under different environmental parameters in the target environment includes: obtaining different first power consumption parameters of first equipment under different environment parameters to form a first power consumption parameter set;

the obtaining a second set of power consumption parameters for the second device to bring the target environment to different environment parameters includes: and obtaining different second power consumption parameters of the second device under the condition that the target environment is under different environment parameters to form a second power consumption parameter set.

Preferably, the adjusting the second device multiple times to make the target environment in different environment parameters includes:

and determining an arrival timing detection period, and adjusting the second equipment for multiple times to enable the target environment to be in different environment parameters.

Preferably, the method further comprises the following steps:

acquiring external environment parameters of an external environment except the target environment through an induction unit;

correspondingly, the adjusting the second device a plurality of times so that the target environment is at different environmental parameters includes: and determining that the change of the external environment parameters meets a second condition, and adjusting the second equipment for multiple times to enable the target environment to be in different environment parameters.

A data processing apparatus comprising:

the system comprises a collector, a first power consumption parameter set and a second power consumption parameter set, wherein the first power consumption parameter set is used for a first device under different environmental parameters in a target environment, the second power consumption parameter set is used for a second device under different environmental parameters, the target environment is under different environmental parameters, the first device is a device used for changing the environmental parameters of the target device, and the target device is located in the target environment;

and the controller is used for determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set, determining a target environment parameter corresponding to the target power consumption, and controlling the second equipment so that the environment parameter of the target environment is the target environment parameter.

Preferably, the method further comprises the following steps:

a timer for starting a timing detection period; the controller is specifically configured to determine an arrival timing detection period, and adjust the second device multiple times so that the target environment is in different environment parameters;

or, the sensor is used for acquiring external environment parameters of an external environment except the target environment; the controller is specifically configured to determine that a change of the external environment parameter satisfies a second condition, and adjust the second device multiple times, so that the target environment is in different environment parameters.

A data processing system comprising:

a target device, the target device being located in a target environment;

a first device that is a device for changing an environmental parameter of the target device;

a second device, the second device being a device for causing the target environment to be under different environmental parameters;

a data processing apparatus comprising:

the collector is used for obtaining a first power consumption parameter set of the first equipment in the target environment under different environmental parameters and a second power consumption parameter set of the second equipment under different environmental parameters of the target environment;

and the controller is used for determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set, determining a target environment parameter corresponding to the target power consumption, and controlling the second equipment so that the environment parameter of the target environment is the target environment parameter.

According to the technical scheme, the target power consumption meeting the first condition is determined by obtaining the first power consumption parameter set of the first device in the target environment under different environmental parameters and the second power consumption parameter set of the second device enabling the target environment to be under different environmental parameters, so that the target environmental parameter corresponding to the target power consumption is determined, and the environmental parameter of the target environment is made to be the target environmental parameter by controlling the second device.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on the provided drawings without creative efforts.

Fig. 1 is a schematic flow chart of a data processing method according to an embodiment of the present application;

fig. 2 is a schematic flow chart of a data processing method according to a fourth embodiment of the present application;

FIG. 3 is a graph of target ambient temperature versus energy consumption provided by a second embodiment of the method of the present application;

fig. 4 is a schematic flowchart of a data processing method according to a fifth embodiment of the present application;

fig. 5 is a schematic flowchart of a data processing method according to a sixth embodiment of the present application;

fig. 6 is a schematic structural diagram of a data processing device according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a data processing device according to a fifth embodiment of the present application;

fig. 8 is a schematic structural diagram of a data processing device according to a sixth embodiment of the present application;

fig. 9 is a schematic structural diagram of a data processing system according to a seventh embodiment of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The data processing method provided by the embodiment of the application can reduce the total power consumption of the equipment in the target environment on the whole. The target environment is provided with a plurality of devices, including at least one first device, at least one second device and at least one target device, in the actual operation process, the first device is a device for changing the environmental parameters of the target device, and the second device can change the environmental parameters of the target environment, namely, the target environment can be in different environmental parameters.

It should be noted that the target environment may include other types of devices besides the first device, the second device and the target device, for example, the first device may be a fan device, the second device may be an air conditioning device, and the target device may be a processing device, such as a processor, where the fan device and the processing device may be separately disposed, or may be integrated in one electronic device, such as a server, and the other types of devices may include a lighting device, a fresh air device, a power supply and distribution device, a management device, and the like.

The inventor finds that, in the research process, the power consumption of the first device and the power consumption of the second device account for most of the total power consumption of the devices in the target environment, and is a key factor influencing the total power consumption of the devices in the target environment. Accordingly, the present application adjusts the environmental parameters of the target environment based on the power consumption of the first device and the second device to reduce the total power consumption of the devices in the target environment as a whole.

An embodiment of the present application provides a data processing method, as shown in fig. 1, the method includes the following steps:

step 101: obtaining a first power consumption parameter set of a first device under different environment parameters in a target environment;

in this application, the first device is a device for changing an environmental parameter of the target device. For example, if the first device is a fan and the target device is a processor, the fan can cool down the processor during operation; or the first equipment is a dehumidifier and the target equipment is a manager, then the dehumidifier can dehumidify the manager in the operation process. It should be noted that the first device and the target device are not limited to this, and may be other types of devices.

The first device is in a target environment, when the target environment is in different environment parameters, the power consumption parameters are different, the target environment corresponds to one first power consumption parameter of the first device under one environment parameter, the target environment corresponds to a plurality of first power consumption parameters of the first device under a plurality of different environment parameters, and the plurality of first power consumption parameters form a first power consumption parameter set.

It should be noted that, when the target environment includes a plurality of first devices, the first power consumption parameter in the first power consumption parameter set may be a sum of first power consumptions of the plurality of first devices. For example, when the target environment is in the environment parameter X0, the first power consumption parameter corresponding to the first device a1 is PA0, the first power consumption parameter corresponding to the first device a2 is PA1, and the first power consumption parameter corresponding to the first device A3 is PA2, then the first power consumption parameter used to form the first power consumption parameter set may be PA0+ PA1+ PA 2; when the target environment is in the environment parameter X1, the first power consumption parameter corresponding to the first device a1 is PA3, the first power consumption parameter corresponding to the first device a2 is PA4, and the first power consumption parameter corresponding to the first device A3 is PA5, then the first power consumption parameter used for forming the first power consumption parameter set may be PA3+ PA4+ PA5, that is, the first power consumption parameter set { PA0+ PA1+ PA2, PA3+ PA4+ PA5 }.

Step 102: obtaining a second power consumption parameter set of a second device under different environment parameters of the target environment;

in this application, the second device is capable of changing an environmental parameter of the target environment. It is understood that the second device is directed to the change of the environmental parameter of the large environment of the target environment, the first device is directed to the change of the environmental parameter of the target device itself in the large environment of the target environment, and the two devices are not exactly the same for the object.

It should be noted that, when the target environment includes a plurality of second devices, the second power consumption parameter in the second power consumption parameter set is a sum of second power consumptions of the plurality of second devices. For example, when the target environment is in the environment parameter X0, the second power consumption parameter corresponding to the second device B1 is PB0, the second power consumption parameter corresponding to the second device B2 is PB1, and the second power consumption parameter corresponding to the second device B3 is PB2, then the second power consumption parameter used for forming the second power consumption parameter set may be PB0+ PB1+ PB 2; when the target environment is in the environment parameter X1, the second power consumption parameter corresponding to the second device B1 is PB3, the second power consumption parameter corresponding to the second device B2 is PB4, and the second power consumption parameter corresponding to the second device B3 is PB5, then the second power consumption parameter used for forming the second power consumption parameter set may be PB3+ PB4+ PB5, that is, the second power consumption parameter set { PB0+ PB1+ PB2, PB3+ PB4+ PB5 }.

Step 103: determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set;

the target power consumption may be a sum of power consumption parameters satisfying a first condition in a sum set of power consumption parameters, where the sum of power consumption parameters is a sum of a first power consumption of the first power consumption parameter set and a second power consumption of the second power consumption parameter set under different environmental parameters.

For example, under different environment parameters { X0, X1, X2, …, Xn }, the first set of power consumption parameters is { Pa0, Pa1, Pa2, …, Pan }, and the second set of power consumption parameters is { Pb0, Pb1, Pb2, …, Pbn }. Then, under different environmental parameters { A0, A1, A2, …, An }, the sum of the power consumption parameters is { Pa0+ Pb0, Pa1+ Pb1, Pa2+ Pb2, …, Pan + Pbn }. The target power consumption may be a sum of power consumption parameters of which the sum satisfies a first condition, such as a sum of power consumption parameters being a sum of any one of the power consumption parameters below a set threshold.

Step 104: determining a target environment parameter corresponding to the target power consumption;

the target environmental parameter may be a parameter corresponding to the target power consumption in different environmental parameters of the target environment, for example, in the above set, the target power consumption is determined to be Pa2+ Pb2, and then the target environmental parameter corresponding thereto is a 2. Alternatively, the target environmental parameter may be a parameter corresponding to the target power consumption among the environmental parameters changed by the second device.

Step 105: controlling the second device such that the environmental parameter of the target environment is the target environmental parameter.

The second device is capable of changing an environmental parameter of the target environment by controlling a parameter of the second device for changing the environmental parameter of the target environment so that the target environment is under the target environmental parameter.

As can be seen from this, in the present embodiment, the total power consumption of the device as a whole is reduced by determining the target power consumption by comprehensively considering the power consumption of the first device and the power consumption of the second device, and setting the environment parameter of the target environment as the target environment parameter corresponding to the target power consumption.

In the second embodiment of the method of the present application, a variation trend of the first power consumption parameter set representation of the first device in different environmental parameters in the target environment is the same as a variation trend of the environmental parameters in the target environment. It is understood that the first power consumption parameter tends to increase as the environmental parameter increases, and tends to decrease as the environmental parameter decreases.

The trend of change of the second power consumption parameter set representation of the second device under different environmental parameters in the target environment is opposite to the trend of change of the environmental parameters of the target environment. It is understood that the second power consumption parameter tends to decrease as the environmental parameter increases, and tends to increase as the environmental parameter decreases.

In the third embodiment of the method of the present application, the environmental parameters of the target environment may be various, such as a humidity parameter, an electrostatic parameter, a temperature parameter, and the like. When the environmental parameter of the target environment is the temperature parameter, the first device is used for adjusting the working mode of the first device according to the temperature parameter of the target device, and has different first power consumption parameters in different working modes.

Generally, the larger the temperature parameter of the target environment is, the more the target device needs to dissipate heat, and correspondingly, in order to cool the target device, the larger the power consumption parameter of the first device is; the smaller the temperature parameter is, the less heat dissipation is required by the target device, and the smaller the power consumption parameter of the corresponding first device is.

When the environmental parameter of the target environment is a temperature parameter, the second device is configured to adjust the temperature parameter, and has different power consumption parameters at different temperature parameters.

That is, the second device is capable of changing the temperature parameter of the target environment, and generally, the larger the temperature parameter, the smaller the power consumption of the second device, and the smaller the temperature parameter, the larger the power consumption of the second device.

A fourth embodiment of the method of the present application provides a data processing method, as shown in fig. 2, the method includes the following steps:

step 201: adjusting the second equipment for multiple times to enable the target environment to be in different environment parameters;

the second device can change the environmental parameters of the target environment, and the target environment can be in different environmental parameters by adjusting the second device for multiple times, specifically, the target environment can be in different environmental parameters which gradually increase, and the target environment can also be in different environmental parameters which gradually decrease. In a preferred implementation, adjusting the second device multiple times may refer to adjusting from high to low or from low to high for a parameter of the second device used for changing the environmental parameter of the target environment, so that the environmental parameter of the target environment is gradually decreased or gradually increased.

The interval value between different environmental parameters of the target environment is not limited in the application, and can be set based on the actual situation, and the maximum value and the minimum value in the different environmental parameters are not limited in the application.

It should be noted that, in the target environment, many target devices have the highest allowable environment parameters, and then, the minimum value of the highest allowable environment parameters of the target devices may be determined as the maximum value of the different environment parameters, so as to prevent the target devices from failing under the condition of the excessive environment parameters.

In the actual application process, when a target environment contains multiple types of target devices, the same type of target devices can be placed in the same area, and in this case, the devices can be managed in different areas. Then, when the target environment includes at least two regions, a minimum value of a highest allowable environment parameter of the target device in a first region may be determined as a maximum value of the different environment parameters, wherein the first region may be any one of the at least two regions. The second device for changing the environmental parameter of the first area may then be adjusted a plurality of times such that the first area of the target environment is at a different environmental parameter.

Step 202: obtaining different first power consumption parameters of first equipment under different environment parameters to form a first power consumption parameter set;

when the device is managed by the sub-area, different first power consumption parameters of the first device in the first area under different environment parameters can be obtained.

Step 203: obtaining different second power consumption parameters of a second device under different environment parameters of the target environment to form a second power consumption parameter set;

when the device is managed by the sub-area, different second power consumption parameters of a second device for changing the environmental parameters of the first area under different environmental parameters can be obtained.

Step 204: determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set;

the target power consumption may be a sum of power consumption parameters satisfying a first condition in a sum set of power consumption parameters, where the sum of power consumption parameters is a sum of a first power consumption of the first power consumption parameter set and a second power consumption of the second power consumption parameter set under different environmental parameters.

The target power consumption may be a sum of power consumption parameters, such as a sum of any power consumption parameter with a sum of power consumption parameters below a set threshold, where the sum of power consumption parameters satisfies a first condition.

In order to reduce the total power consumption of the target device to the maximum extent, in the present application, the target power consumption may be the power consumption with the minimum sum of the power consumption parameters in the sum set of the power consumption parameters; the sum of the power consumption parameters is the sum of a first power consumption of the first power consumption parameter set and a second power consumption of the second power consumption parameter set under different environment parameters. For convenience of understanding, taking the environmental parameter as the temperature parameter as an example, as shown in fig. 3, the power consumption of the second device decreases with an increase in the target environmental temperature, the power consumption of the first device increases with an increase in the target environmental temperature, and the target power consumption is the power consumption at which the sum of the power consumption of the first device and the power consumption of the second device is the smallest, and the target environmental parameter corresponding thereto is 28 °.

Step 205: determining a target environment parameter corresponding to the target power consumption;

step 206: controlling the second device such that the environmental parameter of the target environment is the target environmental parameter.

In the embodiment, the target power consumption is determined by comprehensively considering the power consumption of the first device and the power consumption of the second device, and the environment parameter of the target environment is set as the target environment parameter corresponding to the target power consumption, so that the total power consumption of the device is reduced as a whole; and the total power consumption of the target equipment can be reduced to the maximum extent by taking the power consumption with the minimum sum of the power consumption parameters in the sum set of the power consumption parameters as the target power consumption.

An embodiment of the method provides a data processing method, as shown in fig. 4, the method includes the following steps:

step 401: determining an arrival timing detection period, and adjusting the second equipment for multiple times to enable the target environment to be in different environment parameters;

the data processing method provided by the application can be carried out periodically, namely, a timing detection period is started, and when the timing detection period is determined to be reached, the second equipment is adjusted for multiple times, so that the target environment is in different environment parameters.

Step 402: obtaining different first power consumption parameters of first equipment under different environment parameters to form a first power consumption parameter set;

step 403: obtaining different second power consumption parameters of a second device under different environment parameters of the target environment to form a second power consumption parameter set;

step 404: determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set;

step 405: determining a target environment parameter corresponding to the target power consumption;

step 406: controlling the second device such that the environmental parameter of the target environment is the target environmental parameter.

In the embodiment, the target power consumption is determined by comprehensively considering the power consumption of the first device and the power consumption of the second device, and the environment parameter of the target environment is set as the target environment parameter corresponding to the target power consumption, so that the total power consumption of the device is reduced as a whole; and, by starting the timing detection cycle, the environmental parameters of the target environment can be adapted to different time periods.

Sixth embodiment of the present application provides a data processing method, as shown in fig. 5, the method includes the following steps:

step 501: acquiring external environment parameters of an external environment except the target environment through an induction unit;

the environmental change of the external environment also affects the power consumption change of the second device, so that the external environment parameters of the external environment can be acquired. The external environment may be referred to as an environment other than the target environment, and the specific range is not limited.

Step 502: determining that the change of the external environment parameters meets a second condition, and adjusting the second equipment for multiple times to enable the target environment to be in different environment parameters;

the change of the external environment parameter satisfies a second condition for representing that the change of the external environment parameter is large, for example, an environment parameter threshold value may be set, and when the change of the external environment parameter reaches the set environment parameter threshold value, it indicates that the change of the external environment parameter is large, and the power consumption of the second device has a large change, the second device is adjusted for many times, so that the target environment is in different environment parameters.

Step 503: obtaining different first power consumption parameters of first equipment under different environment parameters to form a first power consumption parameter set;

step 504: obtaining different second power consumption parameters of a second device under different environment parameters of the target environment to form a second power consumption parameter set;

step 505: determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set;

step 506: determining a target environment parameter corresponding to the target power consumption;

step 507: controlling the second device such that the environmental parameter of the target environment is the target environmental parameter.

In the embodiment, the target power consumption is determined by comprehensively considering the power consumption of the first device and the power consumption of the second device, and the environment parameter of the target environment is set as the target environment parameter corresponding to the target power consumption, so that the total power consumption of the device is reduced as a whole; in addition, by monitoring the change of the external environment parameters, the environmental parameters of the target environment can be adjusted when the change of the external environment influences the change of the power consumption of the second device, so that the total power consumption of the device is further reduced.

The seventh implementation of the method provides a data processing method, which takes the environmental parameter as the temperature as an example to perform detailed description of part of the embodiments, and the method comprises the following steps:

(1) determining a starting temperature T0, respectively reading a first power consumption parameter Pa0 of the first device and a second power consumption parameter Pb0 of the second device at the starting temperature T0, and calculating the sum P0 of the power consumption parameters of the first power consumption parameter Pa0 and the second power consumption parameter Pb 0;

wherein, P0 is Pa0+ Pb 0.

When a plurality of first devices are included, the first power consumption parameter Pa0 is the sum of the power consumption parameters of the plurality of first devices.

When a plurality of second devices are included, the second power consumption parameter Pb0 is a sum of power consumption parameters of the plurality of second devices.

(2) Adjusting the temperature of the second device to T1, respectively reading a first power consumption parameter Pa1 of the first device and a second power consumption parameter Pb1 of the second device at the temperature T1, and calculating the sum P1 of the power consumption parameters of the first power consumption parameter Pa1 and the second power consumption parameter Pb 1;

(3) in the same way, adjusting the temperature of the second device to Tn, respectively reading a first power consumption parameter Pan of the first device and a second power consumption parameter Pb1 of the second device at the temperature Tn, and calculating the sum Pn of the power consumption parameters of the first power consumption parameter Pa1 and the second power consumption parameter Pb 1;

(4) comparing P0, P1, … and Pn to find out the minimum Px of the sum of the power consumption parameters;

(5) determining a temperature parameter Tx corresponding to Px;

(6) adjusting the temperature parameter of the second device to Tx.

Since the sum of the power consumption parameters is minimized at the temperature parameter Tx, the total power consumption of the device in the target environment is minimized.

Corresponding to the data processing method, the application also provides a data processing device, and the following description is given through several embodiments.

An embodiment of the apparatus of the present application provides a data processing device, as shown in fig. 6, including a collector 110 and a controller 120; wherein:

the collector 110 is configured to obtain a first power consumption parameter set of the first device in a target environment under different environmental parameters and a second power consumption parameter set of the second device in a target environment under different environmental parameters.

Wherein the first device is a device for changing an environmental parameter of the target device. For example, if the first device is a fan and the target device is a processor, the fan can cool down the processor during operation; or the first equipment is a dehumidifier and the target equipment is a manager, then the dehumidifier can dehumidify the manager in the operation process. It should be noted that the first device and the target device are not limited to this, and may be other types of devices.

The first device is in a target environment, when the target environment is in different environment parameters, power consumption parameters are different, the target environment is divided by one first power consumption parameter corresponding to the first device under one environment parameter, the target environment is in a plurality of different environment parameters and corresponds to a plurality of first power consumption parameters of the first device, and the plurality of first power consumption parameters form a first power consumption parameter set.

It should be noted that, when the target environment includes a plurality of first devices, the first power consumption parameter in the first power consumption parameter set may be a sum of first power consumptions of the plurality of first devices.

In this application, the second device is capable of changing an environmental parameter of the target environment. It is understood that the second device is directed to the change of the environmental parameter of the large environment of the target environment, the first device is directed to the change of the environmental parameter of the target device itself in the large environment of the target environment, and the two devices are not exactly the same for the object.

It should be noted that, when the target environment includes a plurality of second devices, the second power consumption parameter in the second power consumption parameter set is a sum of second power consumptions of the plurality of second devices.

The controller 120 is configured to determine, according to the first power consumption parameter set and the second power consumption parameter set, a target power consumption meeting a first condition, determine a target environment parameter corresponding to the target power consumption, and control the second device so that the environment parameter of the target environment is the target environment parameter.

The target power consumption may be a sum of power consumption parameters satisfying a first condition in a sum set of power consumption parameters, where the sum of power consumption parameters is a sum of a first power consumption of the first power consumption parameter set and a second power consumption of the second power consumption parameter set under different environmental parameters.

For example, under different environment parameters { X0, X1, X2, …, Xn }, the first set of power consumption parameters is { Pa0, Pa1, Pa2, …, Pan }, and the second set of power consumption parameters is { Pb0, Pb1, Pb2, …, Pbn }. Then, under different environmental parameters { A0, A1, A2, …, An }, the sum of the power consumption parameters is { Pa0+ Pb0, Pa1+ Pb1, Pa2+ Pb2, …, Pan + Pbn }. The target power consumption may be a sum of power consumption parameters of which the sum satisfies a first condition, such as a sum of power consumption parameters being a sum of any one of the power consumption parameters below a set threshold.

The target environment parameter may be a parameter corresponding to the target power consumption in different environment parameters in the target environment, for example, in the above set, the target power consumption is determined to be Pa2+ Pb2, and then the target environment parameter corresponding thereto is a 2. Alternatively, the target environmental parameter may be a parameter corresponding to the target power consumption among the environmental parameters changed by the second device.

The second device is capable of changing an environmental parameter of the target environment by controlling a parameter of the second device for changing the environmental parameter of the target environment so that the target environment is under the target environmental parameter.

As can be seen from this, in the present embodiment, the total power consumption of the device as a whole is reduced by determining the target power consumption by comprehensively considering the power consumption of the first device and the power consumption of the second device, and setting the environment parameter of the target environment as the target environment parameter corresponding to the target power consumption.

In an embodiment of the apparatus of the present application, a variation trend of the first power consumption parameter set representation of the first device in the target environment under different environmental parameters is the same as a variation trend of the environmental parameters of the target environment. It is understood that the first power consumption parameter tends to increase as the environmental parameter increases, and tends to decrease as the environmental parameter decreases.

The trend of change of the second power consumption parameter set representation of the second device under different environmental parameters in the target environment is opposite to the trend of change of the environmental parameters of the target environment. It is understood that the second power consumption parameter tends to decrease as the environmental parameter increases, and tends to increase as the environmental parameter decreases.

In the third embodiment of the apparatus of the present application, the environmental parameters of the target environment may be various, such as humidity parameters, electrostatic parameters, temperature parameters, and the like. When the environmental parameter of the target environment is the temperature parameter, the first device is used for adjusting the working mode of the first device according to the temperature parameter of the target device, and has different first power consumption parameters in different working modes.

Generally, the larger the temperature parameter of the target environment is, the more the target device needs to dissipate heat, and correspondingly, in order to cool the target device, the larger the power consumption parameter of the first device is; the smaller the temperature parameter is, the less heat dissipation is required by the target device, and the smaller the power consumption parameter of the corresponding first device is.

When the environmental parameter of the target environment is a temperature parameter, the second device is configured to adjust the temperature parameter, and has different power consumption parameters at different temperature parameters.

That is, the second device is capable of changing the temperature parameter of the target environment, and generally, the larger the temperature parameter, the smaller the power consumption of the second device, and the smaller the temperature parameter, the larger the power consumption of the second device.

In a fourth embodiment of the apparatus of the present application, the data processing device includes a collector and a controller; wherein:

the controller makes the target environment at different environmental parameters by adjusting the second device multiple times.

The second device can change the environmental parameters of the target environment, and the controller can make the target environment under different environmental parameters by adjusting the second device for a plurality of times, specifically, can make the target environment under different environmental parameters which gradually become larger, and also can make the target environment under different environmental parameters which gradually become smaller. In a preferred implementation, the multiple adjustment of the second device means that a high-to-low or low-to-high adjustment is performed on a parameter of the second device for changing the environmental parameter of the target environment, so that the environmental parameter of the target environment is gradually decreased or gradually increased.

The interval value between different environmental parameters of the target environment is not limited in the application, and can be set based on the actual situation, and the maximum value and the minimum value in the different environmental parameters are not limited in the application.

It should be noted that in the target environment, many target devices have the highest allowable environmental parameters, and then the controller may determine the minimum value of the highest allowable environmental parameters of the target devices as the maximum value of the different environmental parameters, so as to prevent the target devices from being in failure under the condition of the excessive environmental parameters.

In the actual application process, when a target environment contains multiple types of target devices, the same type of target devices can be placed in the same area, and in this case, the devices can be managed in different areas. Then, when the target environment includes at least two regions, a minimum value of a highest allowable environment parameter of the target device in a first region may be determined as a maximum value of the different environment parameters, wherein the first region may be any one of the at least two regions. The second device for changing the environmental parameter of the first area may then be adjusted a plurality of times such that the first area of the target environment is at a different environmental parameter.

The collector is used for obtaining different first power consumption parameters of the first equipment under different environmental parameters to form a first power consumption parameter set and obtaining different second power consumption parameters of the second equipment under different environmental parameters to form a second power consumption parameter set.

When the device is managed by the sub-areas, different first power consumption parameters of the first device in the first area under different environmental parameters and different second power consumption parameters of the second device for changing the environmental parameters of the first area under different environmental parameters can be obtained.

The controller is configured to determine, according to the first power consumption parameter set and the second power consumption parameter set, a target power consumption meeting a first condition, determine a target environment parameter corresponding to the target power consumption, and control the second device so that the environment parameter of the target environment is the target environment parameter.

The target power consumption may be a sum of power consumption parameters satisfying a first condition in a sum set of power consumption parameters, where the sum of power consumption parameters is a sum of a first power consumption of the first power consumption parameter set and a second power consumption of the second power consumption parameter set under different environmental parameters.

The target power consumption may be a sum of power consumption parameters, such as a sum of any power consumption parameter with a sum of power consumption parameters below a set threshold, where the sum of power consumption parameters satisfies a first condition.

In order to reduce the total power consumption of the target device to the maximum extent, in the present application, the target power consumption may be the power consumption with the minimum sum of the power consumption parameters in the sum set of the power consumption parameters; the sum of the power consumption parameters is the sum of a first power consumption of the first power consumption parameter set and a second power consumption of the second power consumption parameter set under different environment parameters.

In a fifth embodiment of the apparatus of the present application, as shown in fig. 7, a data processing device includes: a collector 110, a controller 120, and a timer 130; wherein:

a timer 130 for starting a timing detection period;

the controller 120 is configured to determine that a timing detection period is reached, and adjust the second device a plurality of times so that the target environment is in different environment parameters;

the collector 110 is configured to obtain different first power consumption parameters of the first device under different environmental parameters to form a first power consumption parameter set, and obtain different second power consumption parameters of the second device under different environmental parameters to form a second power consumption parameter set;

the controller 120 is further configured to determine, according to the first power consumption parameter set and the second power consumption parameter set, a target power consumption meeting a first condition, determine a target environment parameter corresponding to the target power consumption, and control the second device so that the environment parameter of the target environment is the target environment parameter.

In the embodiment, the target power consumption is determined by comprehensively considering the power consumption of the first device and the power consumption of the second device, and the environment parameter of the target environment is set as the target environment parameter corresponding to the target power consumption, so that the total power consumption of the device is reduced as a whole; and, by starting the timing detection cycle, the environmental parameters of the target environment can be adapted to different time periods.

In a sixth embodiment of the apparatus of the present application, as shown in fig. 8, a data processing device includes: collector 110, controller 120, and sensor 140; wherein:

a sensor 140 for acquiring external environment parameters of an external environment other than the target environment;

the environmental change of the external environment also affects the power consumption change of the second device, so that the external environment parameters of the external environment can be acquired. The external environment may be referred to as an environment other than the target environment, and the specific range is not limited.

The controller 120 is configured to determine that the change of the external environment parameter satisfies a second condition, and adjust the second device a plurality of times so that the target environment is at a different environment parameter.

The collector 110 is configured to obtain different first power consumption parameters of the first device under different environment parameters to form a first power consumption parameter set, and obtain different second power consumption parameters of the second device under different environment parameters to form a second power consumption parameter set.

The controller 120 is further configured to determine, according to the first power consumption parameter set and the second power consumption parameter set, a target power consumption meeting a first condition, determine a target environment parameter corresponding to the target power consumption, and control the second device so that the environment parameter of the target environment is the target environment parameter.

In the embodiment, the target power consumption is determined by comprehensively considering the power consumption of the first device and the power consumption of the second device, and the environment parameter of the target environment is set as the target environment parameter corresponding to the target power consumption, so that the total power consumption of the device is reduced as a whole; in addition, by monitoring the change of the external environment parameters, the environmental parameters of the target environment can be adjusted when the change of the external environment influences the change of the power consumption of the second device, so that the total power consumption of the device is further reduced.

Corresponding to the data processing method, the application also provides a data processing system, and the following description is given through several embodiments.

An embodiment of the apparatus of the present application provides a data processing system, as shown in fig. 9, including: a data processing device 100, a first device 200, a second device 300, and a target device 400; wherein: the target device 400 is in a target environment, and the first device 200 is a device for changing an environmental parameter of the target device 400;

the second device 300 is a device for subjecting the target environment to different environmental parameters;

the data processing apparatus 100 includes: a collector 110 and a controller 120;

the collector 110 is configured to obtain a first power consumption parameter set of the first device in a target environment under different environmental parameters and a second power consumption parameter set of the second device in a target environment under different environmental parameters.

Wherein the first device is capable of improving an environmental parameter of the target device. For example, if the first device is a fan and the target device is a processor, the fan can cool down the processor during operation; or the first equipment is a dehumidifier and the target equipment is a manager, then the dehumidifier can dehumidify the manager in the operation process. It should be noted that the first device and the target device are not limited to this, and may be other types of devices.

The first device is in a target environment, when the target environment is in different environment parameters, the power consumption parameters are different, the target environment corresponds to one first power consumption parameter of the first device under one environment parameter, the target environment corresponds to a plurality of first power consumption parameters of the first device under a plurality of different environment parameters, and the plurality of first power consumption parameters form a first power consumption parameter set.

It should be noted that, when the target environment includes a plurality of first devices, the first power consumption parameter in the first power consumption parameter set may be a sum of first power consumptions of the plurality of first devices.

In this application, the second device is capable of changing an environmental parameter of the target environment. It is understood that the second device is directed to the change of the environmental parameter of the large environment of the target environment, the first device is directed to the change of the environmental parameter of the target device in the large environment of the target environment, and the two devices are not exactly the same for the object.

It should be noted that, when the target environment includes a plurality of second devices, the second power consumption parameter in the second power consumption parameter set is a sum of second power consumptions of the plurality of second devices.

The controller 120 is configured to determine, according to the first power consumption parameter set and the second power consumption parameter set, a target power consumption meeting a first condition, determine a target environment parameter corresponding to the target power consumption, and control the second device so that the environment parameter of the target environment is the target environment parameter.

The target power consumption may be a sum of power consumption parameters satisfying a first condition in a sum set of power consumption parameters, where the sum of power consumption parameters is a sum of a first power consumption of the first power consumption parameter set and a second power consumption of the second power consumption parameter set under different environmental parameters.

For example, under different environment parameters { X0, X1, X2, …, Xn }, the first set of power consumption parameters is { Pa0, Pa1, Pa2, …, Pan }, and the second set of power consumption parameters is { Pb0, Pb1, Pb2, …, Pbn }. Then, under different environmental parameters { A0, A1, A2, …, An }, the sum of the power consumption parameters is { Pa0+ Pb0, Pa1+ Pb1, Pa2+ Pb2, …, Pan + Pbn }. The target power consumption may be a sum of power consumption parameters of which the sum satisfies a first condition, such as a sum of power consumption parameters being a sum of any one of the power consumption parameters below a set threshold.

The target environment parameter may be a parameter corresponding to the target power consumption in different environment parameters in the target environment, for example, in the above set, the target power consumption is determined to be Pa2+ Pb2, and then the target environment parameter corresponding thereto is a 2. Alternatively, the target environmental parameter may be a parameter corresponding to the target power consumption among the environmental parameters changed by the second device.

The second device is capable of changing an environmental parameter of the target environment by controlling a parameter of the second device for changing the environmental parameter of the target environment so that the target environment is under the target environmental parameter.

As can be seen from this, in the present embodiment, the total power consumption of the device as a whole is reduced by determining the target power consumption by comprehensively considering the power consumption of the first device and the power consumption of the second device, and setting the environment parameter of the target environment as the target environment parameter corresponding to the target power consumption.

It should be noted that, related embodiments of the data processing apparatus in the data processing system of the present application may participate in the first to sixth device embodiments, and detailed descriptions of embodiments of the data processing system are omitted.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A method of data processing, comprising:

obtaining a first power consumption parameter set of a first device under different environment parameters in a target environment; wherein the first device is a device for changing an environmental parameter of a target device, the target device being located in the target environment;

obtaining a second power consumption parameter set of a second device under different environment parameters of the target environment;

determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set; the target power consumption is the sum of power consumption parameters meeting the first condition in a power consumption parameter sum set, and the sum of the power consumption parameters is the sum of first power consumption of the first power consumption parameter set and second power consumption of the second power consumption parameter set under different environment parameters;

determining a target environment parameter corresponding to the target power consumption;

controlling the second device such that the environmental parameter of the target environment is the target environmental parameter.

2. The method of claim 1, the first set of power consumption parameters characterizing a same trend of change as an environmental parameter of the target environment; the second power consumption parameter set represents a trend of change opposite to a trend of change of the environmental parameter of the target environment.

3. The method of claim 1, the target power consumption meeting the first condition being a power consumption of a set of sum of power consumption parameters for which the sum is minimal.

4. The method of claim 1, wherein the environmental parameter of the target environment is a temperature parameter, and the first device is configured to adjust its operating mode according to the temperature parameter of the target device, and has different first power consumption parameters in different operating modes;

the second device is configured to adjust a temperature parameter of the target environment, and has a second, different power consumption parameter at a different temperature parameter.

5. The method of claim 1, further comprising:

adjusting the second device multiple times to enable the target environment to be at different environment parameters;

correspondingly, the obtaining a first power consumption parameter set of the first device under different environmental parameters in the target environment includes: obtaining different first power consumption parameters of first equipment under different environment parameters to form a first power consumption parameter set;

the obtaining a second set of power consumption parameters for the second device to bring the target environment to different environment parameters includes: and obtaining different second power consumption parameters of the second device under the condition that the target environment is under different environment parameters to form a second power consumption parameter set.

6. The method of claim 5, the adjusting the second device a plurality of times such that the target environment is at different environmental parameters, comprising:

and determining an arrival timing detection period, and adjusting the second equipment for multiple times to enable the target environment to be in different environment parameters.

7. The method of claim 5, further comprising:

acquiring external environment parameters of an external environment except the target environment through an induction unit;

correspondingly, the adjusting the second device a plurality of times so that the target environment is at different environmental parameters includes: and determining that the change of the external environment parameters meets a second condition, and adjusting the second equipment for multiple times to enable the target environment to be in different environment parameters.

8. A data processing apparatus comprising:

the system comprises a collector, a first power consumption parameter set and a second power consumption parameter set, wherein the first power consumption parameter set is used for a first device under different environmental parameters in a target environment, the second power consumption parameter set is used for a second device under different environmental parameters, the target environment is in the target environment, the first device is used for changing the environmental parameters of the target device, and the target device is located in the target environment;

the controller is used for determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set, determining a target environment parameter corresponding to the target power consumption, and controlling the second equipment to enable the environment parameter of the target environment to be the target environment parameter; the target power consumption is the sum of power consumption parameters meeting the first condition in a power consumption parameter sum set, and the power consumption parameter sum is the sum of first power consumption of the first power consumption parameter set and second power consumption of the second power consumption parameter set under different environment parameters.

9. The apparatus of claim 8, further comprising:

a timer for starting a timing detection period; the controller is specifically configured to determine an arrival timing detection period, and adjust the second device multiple times so that the target environment is in different environment parameters;

or, the sensor is used for acquiring external environment parameters of an external environment except the target environment; the controller is specifically configured to determine that a change of the external environment parameter satisfies a second condition, and adjust the second device multiple times, so that the target environment is in different environment parameters.

10. A data processing system comprising:

a target device, the target device being located in a target environment;

a first device that is a device for changing an environmental parameter of the target device;

a second device, the second device being a device for causing the target environment to be under different environmental parameters;

a data processing apparatus comprising:

the collector is used for obtaining a first power consumption parameter set of the first equipment in the target environment under different environmental parameters and a second power consumption parameter set of the second equipment under different environmental parameters of the target environment;

the controller is used for determining target power consumption meeting a first condition according to the first power consumption parameter set and the second power consumption parameter set, determining a target environment parameter corresponding to the target power consumption, and controlling the second equipment to enable the environment parameter of the target environment to be the target environment parameter; the target power consumption is the sum of power consumption parameters meeting the first condition in a power consumption parameter sum set, and the power consumption parameter sum is the sum of first power consumption of the first power consumption parameter set and second power consumption of the second power consumption parameter set under different environment parameters.

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