CN106533773A - Information processing method, field replaceable unit, cloud device and system - Google Patents

Abstract

The embodiment of the invention discloses an information processing method, a field replaceable unit, a cloud device and system. Each field replaceable unit (e.g., a server) obtains its own three-dimensional spatial position information, besides the operation state monitoring information of the field replaceable unit is sent to the cloud device, the three-dimensional spatial position information is also sent to the cloud device, so that a worker can obtain the three-dimensional spatial position information of the field replaceable unit from the cloud device and can search a target field replaceable unit more quickly according to the three-dimensional spatial position information of the field replaceable unit, thereby improving the search efficiency and reducing the error probability.

Description

Information processing method, field replaceable unit, cloud device and system

Technical Field

The invention relates to the technical field of information processing, in particular to an information processing method, a field replaceable unit, cloud equipment and a system.

Background

At present, when a certain server fails, a worker finds the failed server on site according to the equipment identifier of the failed server to repair or replace the server.

However, because the number of servers in the data center is huge, the workload of workers is large by searching the servers through the equipment identifiers, the efficiency is low, and errors are easy to occur.

Disclosure of Invention

The invention aims to provide an information processing method, a field replaceable unit, cloud equipment and a system, so as to solve the problems of low efficiency and high possibility of errors in the process of searching a server in a data center.

In order to achieve the purpose, the invention provides the following technical scheme:

an information processing method applied to a field replaceable unit, the method comprising:

acquiring position information of the field replaceable unit, wherein the position information is three-dimensional space position information of the field replaceable unit relative to preset positioning equipment;

acquiring running state monitoring information of the field replaceable unit;

and sending report information to cloud equipment, wherein the report information comprises the position information and the running state monitoring information.

The above method, preferably, further comprises:

acquiring to-be-identified information sent by electronic equipment, wherein the to-be-identified information comprises report information acquired by the electronic equipment from the cloud equipment, and the communication distance between the field replaceable unit and the electronic equipment is smaller than a preset distance threshold;

judging whether the report information contained in the information to be identified is matched with the stored report information;

and when the report information contained in the information to be identified is matched with the stored report information, outputting a prompt signal.

In the above method, preferably, the report information further includes: device identification information of the field replaceable unit.

In the above method, preferably, at least one preset positioning device is provided.

An information processing method is applied to cloud equipment, and the method comprises the following steps:

receiving report information sent by a field replaceable unit, the report information including: location information of the field replaceable unit, and operational status monitoring information of the field replaceable unit; the position information is three-dimensional spatial position information of the field replaceable unit relative to a preset positioning device.

The above method, preferably, further comprises:

sending the report information to an electronic device, the electronic device being capable of communicating with the field replaceable unit so that the field replaceable unit can obtain the report information sent by the electronic device, determine whether the report information sent by the electronic device matches the stored report information, and output a prompt signal when the determination result is that the report information and the stored report information match; wherein a communication distance between the field replaceable unit and the electronic device is less than a preset distance threshold.

In the above method, preferably, the report information further includes: device identification information of the field replaceable unit.

In the above method, preferably, the cloud device receives report information sent by a plurality of field replaceable units, and the method further includes:

a field replaceable unit location profile is generated based on the location information of the field replaceable unit and the device identification information of the field replaceable unit.

The above method, preferably, further comprises:

when the operating condition monitoring information for a first field replaceable unit of the plurality of field replaceable units indicates that the first field replaceable unit is abnormal, the first field replaceable unit is displayed in a label manner in the field replaceable unit location distribution map to prompt the first field replaceable unit to be abnormal.

The above method, preferably, further comprises:

displaying the predetermined monitoring parameters of each field replaceable unit in real time in the field replaceable unit position profile to display dynamic individualities of the predetermined monitoring parameters of the plurality of field replaceable units.

A field replaceable unit comprising:

the communication module is used for acquiring the position information of the field replaceable unit, and the position information is the three-dimensional space position information of the communication module relative to preset positioning equipment;

the monitoring module is used for monitoring the running state of the field replaceable unit so as to acquire running state monitoring information; and sending report information to cloud equipment, wherein the report information comprises the position information and the running state monitoring information.

The field replaceable unit described above, preferably, further includes: a prompt signal output module;

the communication module is further configured to acquire information to be identified sent by the electronic device, where the information to be identified includes report information acquired by the electronic device from the cloud device, and a communication distance between the communication module and the electronic device is smaller than a preset distance threshold;

the monitoring module is further used for judging whether the report information contained in the information to be identified is matched with the stored report information; and when the report information contained in the information to be identified is matched with the stored report information, controlling the prompt signal output module to output a prompt signal.

In the field replaceable unit, preferably, the communication module is a wireless network sensor module.

A cloud device, comprising:

a first communication assembly configured to receive report information sent by a field replaceable unit, the report information including: location information of the field replaceable unit, and operational status monitoring information of the field replaceable unit; the position information is three-dimensional spatial position information of the field replaceable unit relative to a preset positioning device.

Above-mentioned cloud equipment, it is preferred, still include:

the second communication assembly is used for sending the report information to the electronic equipment, the electronic equipment can communicate with the field replaceable unit so that the field replaceable unit can conveniently acquire the report information sent by the electronic equipment, judge whether the report information sent by the electronic equipment is matched with the stored report information or not, and output a prompt signal when the judgment result is that the report information sent by the electronic equipment is matched with the stored report information; wherein a communication distance between the field replaceable unit and the electronic device is less than a preset distance threshold.

Preferably, the cloud device further includes, in the report information: device identification information of the field replaceable unit.

Above-mentioned cloud equipment, it is preferred, still include:

a processor for generating a field replaceable unit location profile based on the location information of the field replaceable unit and the device identification information of the field replaceable unit.

Preferably, the cloud device is further configured to,

when the operating condition monitoring information for a first field replaceable unit of the plurality of field replaceable units indicates that the first field replaceable unit is abnormal, the first field replaceable unit is displayed in a label manner in the field replaceable unit location distribution map to prompt the first field replaceable unit to be abnormal.

Preferably, the cloud device is further configured to,

displaying the predetermined monitoring parameters of each field replaceable unit in real time in the field replaceable unit position profile to display dynamic individualities of the predetermined monitoring parameters of the plurality of field replaceable units.

An information processing system comprising: the system comprises a plurality of field replaceable units, a positioning device and a cloud device; wherein,

the locating device is used for locating each field replaceable unit in the plurality of field replaceable units;

the field replaceable unit is used for acquiring position information of the field replaceable unit, wherein the position information is three-dimensional space position information of the field replaceable unit relative to the positioning equipment; acquiring running state monitoring information of the field replaceable unit; sending report information to the cloud device, wherein the report information comprises the position information and the running state monitoring information;

the cloud device is used for acquiring report information sent by each field replaceable unit.

The above information processing system, preferably, an electronic device;

the electronic equipment is used for acquiring report information from the cloud equipment;

the field replaceable unit is further configured to acquire to-be-identified information sent by the electronic device, where the to-be-identified information includes report information acquired by the electronic device from the cloud device, and a communication distance between the electronic device and the field replaceable unit is smaller than a preset distance threshold; judging whether the report information contained in the information to be identified is matched with the stored report information; and when the report information contained in the information to be identified is matched with the stored report information, outputting a prompt signal.

In the information processing system, it is preferable that the report information further includes: device identification information of the field replaceable unit.

Preferably, in the information processing system, the cloud device is further configured to: a field replaceable unit location profile is generated based on the location information of the field replaceable unit and the device identification information of the field replaceable unit.

Preferably, in the information processing system, the cloud device is further configured to: when the operating condition monitoring information for a first field replaceable unit of the plurality of field replaceable units indicates that the first field replaceable unit is abnormal, the first field replaceable unit is marked and displayed in the field replaceable unit position distribution map to prompt that the first field replaceable unit is abnormal.

Preferably, in the information processing system, the cloud device is further configured to: displaying the predetermined monitoring parameters of each field replaceable unit in real time in the field replaceable unit position profile to display dynamic individualities of the predetermined monitoring parameters of the plurality of field replaceable units.

In the information processing system, preferably, the electronic device is a radio frequency electronic tag.

In the above information processing system, it is preferable that the positioning device has at least one.

According to the technical scheme, the information processing method, the field replaceable unit, the cloud equipment and the system are provided, each field replaceable unit (such as a server) acquires own three-dimensional space position information, the three-dimensional space position information is transmitted to the cloud equipment besides the running state monitoring information of the field replaceable unit is transmitted to the cloud equipment, therefore, a worker can acquire the three-dimensional space position information of the field replaceable unit from the cloud equipment, the target field replaceable unit can be searched more quickly according to the three-dimensional space position information of the field replaceable unit, the searching efficiency is improved, and the probability of errors is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of an implementation of an information processing method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a field replaceable unit according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a cloud device according to an embodiment of the present invention;

fig. 4 is another schematic structural diagram of the cloud device according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of an information processing system according to an embodiment of the present invention.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be practiced otherwise than as specifically illustrated.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

In an embodiment of the present invention, a Field Replaceable Unit (FRU) refers to a replaceable device (e.g., a server, etc.) or a replaceable component in a device (e.g., a power supply, a fan, etc. in a server).

Referring to fig. 1, fig. 1 is a flowchart of an implementation of an information processing method according to an embodiment of the present invention, which may include:

step S11: the method comprises the steps that a field replaceable unit obtains position information of the field replaceable unit, wherein the position information is three-dimensional space position information of the field replaceable unit relative to preset positioning equipment;

in the embodiment of the invention, the positioning equipment is arranged in the space range where the field replaceable unit is located in advance and is used for positioning the field replaceable unit. For example, if the field replaceable unit is a server in a data center room, the positioning apparatus may be installed in the data center room.

One positioning device may be provided, or two or more positioning devices may be provided.

The location of the field replaceable unit may be accomplished through signal interaction between the field replaceable unit and the locating device. In particular, the method comprises the following steps of,

assuming that there is only one positioning device, two signal transmitters, respectively denoted as a first signal transmitter and a second signal transmitter, may be provided in the positioning device. When the position of the first field replaceable unit needs to be located, the two signal transmitters both transmit directional electromagnetic wave signals to the first field replaceable unit, the first signal transmitter can determine a first distance between the first signal transmitter and the first field replaceable unit according to the time of transmitting the electromagnetic wave signals to the first field replaceable unit, the time of receiving the electromagnetic wave signals fed back by the first field replaceable unit and the transmission speed of the electromagnetic wave signals, and similarly, the second signal transmitter can determine a second distance between the second signal transmitter and the first field replaceable unit according to the time of transmitting the electromagnetic wave signals to the first field replaceable unit, the time of receiving the electromagnetic wave signals fed back by the first field replaceable unit and the transmission speed of the electromagnetic wave signals, and the locating device can determine a second distance between the second signal transmitter and the first field replaceable unit according to the first distance, The second distance, the direction from which the electromagnetic wave signal is transmitted, may determine a three-dimensional spatial position of the first field replaceable unit.

When two signal transmitters are located in the same positioning device, the distance between the two signal transmitters is short, the positioning accuracy is low, in order to improve the positioning accuracy, two positioning devices can be arranged, the distance between the two positioning devices is greater than a preset value, only one signal transmitter can be arranged in each positioning device, and the specific implementation process of positioning by using one positioning device can be referred to by the mode of positioning the field replaceable unit by using the two positioning devices, which is not repeated herein.

In order that the signal of the locating device may cover all of the field replaceable units, the signal transmitter in the locating device may be in a rotated state.

In addition to the above positioning methods, other positioning methods may be used in the embodiments of the present invention to position the field replaceable unit, for example, a method of positioning through three or more positioning devices.

Step S12: the field replaceable unit acquires running state monitoring information of the field replaceable unit;

the field replaceable unit monitors the running state of the field replaceable unit and acquires the running state monitoring information of the field replaceable unit.

Step S13: and the field replaceable unit sends report information to the cloud equipment, wherein the report information comprises the position information and the running state monitoring information.

In the embodiment of the invention, the field replaceable unit sends the running state monitoring information to the cloud equipment, and also sends the position information of the field replaceable unit to the cloud equipment.

After the field replaceable unit sends the report information to the cloud device, the report information can be stored locally.

The cloud equipment can receive report information sent by the field replaceable units, and after the report information sent by the field replaceable units is received, if the running state information of a certain field replaceable unit represents that the field replaceable unit is abnormal, the cloud equipment can actively or passively send the position information of the field replaceable unit to the monitoring terminal, so that monitoring personnel can quickly position the abnormal field replaceable unit according to the position information of the field replaceable unit, the searching efficiency is improved, and the probability of errors is reduced.

In an optional embodiment, after receiving the report information of the plurality of field replaceable units, the cloud device may generate a simple field replaceable unit location distribution map according to the location information of each field replaceable unit, which is denoted as a first location distribution map for convenience of description, and when the operating state information of a certain field replaceable unit indicates that the field replaceable unit is abnormal, an abnormal mark may be marked at a location corresponding to the field replaceable unit in the first location distribution map. That is, in the first location profile, only the location information of each field replaceable unit and an abnormality flag that is marked at a location when a field replaceable unit at that location is abnormal are identified. The cloud equipment can actively or passively send the first position distribution diagram to the monitoring terminal, and monitoring personnel can more intuitively and quickly locate the abnormal field replaceable unit according to the first position distribution diagram.

In an optional embodiment, the report information sent by the field replaceable unit to the cloud device may further include device identification information of the field replaceable unit.

After receiving the report information sent by the plurality of field replaceable units, the cloud device may further generate another field replaceable unit location distribution map based on the location information of the field replaceable units and the device identifiers of the field replaceable units, which is denoted as a second location distribution map for convenience of description, where in the second location distribution map, in addition to recording the locations of the respective field replaceable units, device identifier information of the field replaceable unit located at each location is also recorded at each location, so that a monitoring person can confirm whether the field replaceable unit to be searched is accurately located according to the device identifier information.

In an alternative embodiment, in addition to recording the device identification information of the field replaceable unit in the second location profile, an exception marker may be marked at a location when an exception occurs in the field replaceable unit at the location, which may allow the monitoring personnel to more intuitively, quickly, and accurately locate the field replaceable unit at which the exception occurred.

In an alternative embodiment, in addition to recording the device identification information of the field replaceable unit in the field replaceable unit location profile (either the first location profile or the second location profile), the predetermined monitored parameters of each field replaceable unit may be displayed in real time in the field replaceable unit location profile to display a dynamic distribution of the predetermined monitored parameters of the field replaceable unit to provide a basis for statistical or other analysis of a large number of field replaceable units. The predetermined monitoring parameter may be temperature, humidity, etc.

In an optional embodiment, after receiving the report information, the cloud device may send the report information to the electronic device, where the electronic device is a portable electronic device and is capable of communicating with the field replaceable unit, so that the electronic device can send the report information to the field replaceable unit, and a communication distance between the electronic device and the field replaceable unit is smaller than a preset distance threshold. That is, the communication distance between the electronic device and the field replaceable unit is relatively short, and communication between the electronic device and the field replaceable unit is only possible if the distance between the electronic device and the field replaceable unit is less than a preset distance. For example, the electronic device may be a radio frequency electronic tag that may communicate with the field replaceable unit through the wireless network sensor module.

The field replaceable unit can actively or passively acquire information to be identified from the electronic device, wherein the information to be identified comprises report information acquired by the electronic device from the cloud device. For example, the field replaceable unit may send request information to the electronic device to request the electronic device to send the information to be identified after detecting the signal radiated by the electronic device, and the electronic device sends the information to be identified to the electronic device after receiving the request information; alternatively, the electronic device actively transmits the information to be identified to the field replaceable unit after detecting the electrical signal radiated by the field replaceable unit.

After receiving the information to be identified, the field replaceable unit compares the report information contained in the information to be identified with locally stored report information to judge whether the report information contained in the information to be identified is matched with the locally stored report information, and if the report information contained in the information to be identified is matched with the locally stored report information, a prompt signal is output so as to prompt a user of the electronic equipment. The prompting signal can be light flashing or voice prompting.

Because the communication distance between the electronic device and the field replaceable unit is short, the field replaceable unit can output the prompt signal only when the user carries the electronic device to be close to the field replaceable unit to be positioned, so that the user does not need to check the identification information of the field replaceable unit one by one, the field replaceable unit can be positioned only when the portable electronic device passes through the field replaceable unit, and the positioning efficiency is further improved.

Corresponding to the method embodiment, an embodiment of the present invention further provides a field replaceable unit, and a schematic structural diagram of the field replaceable unit provided in the embodiment of the present invention is shown in fig. 2, and the field replaceable unit may include:

a communication module 21 and a monitoring module 22; wherein,

the communication module 21 and the monitoring module 22 can communicate with each other via an I2C (Inter-Integrated Circuit) bus.

The communication module 21 is used for acquiring position information of the field replaceable unit, wherein the position information is three-dimensional space position information of the communication module 21 relative to preset positioning equipment;

in the embodiment of the invention, the positioning equipment is arranged in the space range where the field replaceable unit is located in advance and is used for positioning the field replaceable unit. For example, if the field replaceable unit is a server in a data center room, the positioning apparatus may be installed in the data center room.

One positioning device may be provided, or two or more positioning devices may be provided.

The communication module 21 may be a wireless network sensor module.

The monitoring module 22 is configured to monitor an operating status of the field replaceable unit to obtain operating status monitoring information; and sending report information to the cloud equipment, wherein the report information comprises the three-dimensional space position information and running state monitoring information of the field replaceable unit.

If the field replaceable unit is a server, the monitoring module 22 may be a Baseboard Management Controller (BMC) within the server.

In the embodiment of the invention, the field replaceable unit sends the running state monitoring information to the cloud equipment, and also sends the position information of the field replaceable unit to the cloud equipment.

After the field replaceable unit sends the report information to the cloud device, the report information can be stored locally.

The field replaceable unit provided by the embodiment of the invention not only sends the running state monitoring information of the field replaceable unit to the cloud equipment, but also sends the three-dimensional space position information to the cloud equipment, so that a worker can obtain the three-dimensional space position information of the field replaceable unit from the cloud equipment, and according to the three-dimensional space position information of the field replaceable unit, the target field replaceable unit can be searched more quickly, the searching efficiency is improved, and the probability of errors is reduced.

In one possible implementation, the field replaceable unit may further include: a prompt signal output module;

the communication module 21 may also be configured to acquire information to be identified sent by the electronic device, where the information to be identified includes report information acquired by the electronic device from the cloud device, and a communication distance between the communication module 21 and the electronic device is smaller than a preset distance;

the electronic device may be a radio frequency electronic tag that may communicate with the field replaceable unit communication module 21 through a wireless network sensor module.

The communication module 21 may directly or indirectly acquire the information to be identified from the electronic device. For example, the communication module 21 may send request information to the electronic device after detecting a signal radiated by the electronic device to request the electronic device to send information to be identified, and the electronic device sends the information to be identified to the electronic device after receiving the request information; alternatively, the electronic device actively sends the information to be identified to the communication module 21 after detecting the electric signal radiated by the communication module 21.

The monitoring module 22 may also be configured to determine whether the report information included in the information to be identified matches the locally stored report information, and control the prompt signal output module to output a prompt signal if the report information included in the information to be identified matches the locally stored report information.

The prompt signal output module can be a flashlight, such as an LED lamp. The prompt signal output module can also be a voice output module.

Because the communication distance between the electronic device and the communication module 21 is short, the field replaceable unit outputs the prompt signal only when the user carries the electronic device to be close to the field replaceable unit to be positioned, so that the user does not need to check the identification information of the field replaceable unit one by one, the field replaceable unit can be positioned as long as the carried electronic device passes through the vicinity of the field replaceable unit, and the positioning efficiency is further improved.

In an optional embodiment, the report information sent by the monitoring module 22 to the cloud device may further include device identification information of the field replaceable unit, so that the cloud device may generate a field replaceable unit location distribution map, in which the location of each field replaceable unit and the device identification information of the field replaceable unit at each location are recorded, and if the field replaceable unit is abnormal, an abnormal mark may be marked at the location of the abnormal field replaceable unit in the field replaceable unit location distribution map, so that a monitoring person may more intuitively, quickly, and accurately locate the abnormal field replaceable unit.

It should be noted that fig. 2 only shows the difference between the field replaceable unit provided by the embodiment of the present invention and the existing field replaceable unit, and how other modules in the field replaceable unit provided by the embodiment of the present invention implement their existing functions is not within the scope of the present disclosure, and is not described herein again.

Corresponding to the method embodiment, the embodiment of the invention also provides the cloud equipment. As shown in fig. 3, a schematic structural diagram of a cloud device provided in an embodiment of the present invention may include:

a first communication assembly 31 for receiving a report message sent by a field replaceable unit, the report message including: location information of the field replaceable unit, and operational status monitoring information of the field replaceable unit; the position information of the field replaceable unit is three-dimensional spatial position information of the field replaceable unit relative to the preset positioning device.

The cloud device provided by the embodiment of the invention receives the running state monitoring information sent by the field replaceable unit and also receives the three-dimensional space position information of the field replaceable unit, so that a worker can acquire the three-dimensional space position information of the field replaceable unit from the cloud device, and can search a target field replaceable unit more quickly according to the three-dimensional space position information of the field replaceable unit, thereby improving the searching efficiency and reducing the probability of errors.

On the basis of the embodiment shown in fig. 3, another schematic structural diagram of the cloud device provided in the embodiment of the present invention is shown in fig. 4, and may further include:

a second communication module 41, configured to send the received report information to the electronic device, where the electronic device may further communicate with the field replaceable unit, so that the field replaceable unit obtains the report information sent by the electronic device, determines whether the report information sent by the electronic device matches the report information stored locally in the field replaceable unit, and outputs a prompt signal when the determination result is that the report information sent by the electronic device matches the report information stored locally in the field replaceable unit; wherein a communication distance between the field replaceable unit and the electronic device is less than a preset distance threshold.

The second communication component 41 may actively or passively transmit the report information received by the first communication component 41 to the electronic device, for example, the second communication component 41 may actively transmit the report information of the field replaceable unit to the electronic device after the first communication component 41 receives the report information, or may transmit the report information to the electronic device upon receiving a request transmitted by the electronic device.

In an optional embodiment, the report information received by the cloud device may further include device identification information of the field replaceable unit.

The cloud device provided by the embodiment of the present invention may further include a processor, where the processor may communicate with the first communication component 31 and/or the second communication component 41, and the processor may be connected with the communication component 31 and/or the second communication component 41 through a bus.

In an alternative embodiment, after the first communication module 31 receives the report information of each field replaceable unit, the processor may generate a simple field replaceable unit location profile, referred to as the first location profile herein for convenience of description, according to the location information of each field replaceable unit, and when the operating status information of a field replaceable unit indicates that the field replaceable unit is abnormal, an abnormality mark may be marked at a location corresponding to the field replaceable unit in the first location profile. That is, in the first location profile, only the location information of each field replaceable unit and an abnormality flag that is marked at a location when a field replaceable unit at that location is abnormal are identified. The cloud equipment can actively or passively send the first position distribution diagram to the monitoring terminal, and monitoring personnel can more intuitively and quickly locate the abnormal field replaceable unit according to the first position distribution diagram.

In another alternative embodiment, the processor may generate another field replaceable unit location profile, referred to herein as a second location profile for convenience of description, based on the location information of the field replaceable unit and the device identification of the field replaceable unit after the first communication module 31 receives the reported information of each field replaceable unit, where the second location profile records the device identification information of the field replaceable unit at each location in addition to the location of each field replaceable unit, so that the monitoring personnel can determine whether the field replaceable unit to be located is accurately located according to the device identification information. When the field replaceable unit at a certain position is abnormal, an abnormal mark can be marked at the position, so that monitoring personnel can more intuitively, quickly and accurately position the abnormal field replaceable unit.

In yet another alternative embodiment, the processor may display the predetermined monitored parameters of each field replaceable unit in real time in the field replaceable unit location profile to display a dynamic distribution of the predetermined monitored parameters of the field replaceable unit in addition to recording the device identification information of the field replaceable unit in the field replaceable unit location profile (either the first location profile or the second location profile), to provide a basis for statistical analysis of a large number of field replaceable units. The predetermined monitoring parameter may be temperature, humidity, etc.

The embodiment of the invention also provides an information processing system. As shown in fig. 5, a schematic structural diagram of an information processing system according to an embodiment of the present invention may include:

a plurality of field replaceable units 51, a positioning device 52 and a cloud device 53; wherein,

a locating device 52 for locating each of the number of field replaceable units;

there may be at least one pointing device 52.

The field replaceable unit 51 is configured to obtain position information of the field replaceable unit itself, where the position information is three-dimensional spatial position information of the field replaceable unit relative to the positioning device 52; acquiring running state monitoring information of the mobile terminal; sending report information to the cloud equipment, wherein the report information comprises self position information and self running state monitoring information;

the cloud device 53 is configured to obtain report information sent by each field replaceable unit.

After the cloud device 53 obtains the report information sent by each field replaceable unit, a simple field replaceable unit position distribution map may be generated according to the position information of each field replaceable unit, and for convenience of description, the simple field replaceable unit position distribution map is recorded as a first position distribution map. That is, in the first location profile, only the location information of each field replaceable unit and an abnormality flag that is marked at a location when a field replaceable unit at that location is abnormal are identified. The cloud equipment can actively or passively send the first position distribution diagram to the monitoring terminal, and monitoring personnel can more intuitively and quickly locate the abnormal field replaceable unit according to the first position distribution diagram.

In the information processing system provided by the embodiment of the invention, each field replaceable unit (such as a server) acquires the three-dimensional spatial position information of the field replaceable unit, and the three-dimensional spatial position information is transmitted to the cloud equipment in addition to the operation state monitoring information of the field replaceable unit, so that a worker can acquire the three-dimensional spatial position information of the field replaceable unit from the cloud equipment, and according to the three-dimensional spatial position information of the field replaceable unit, the target field replaceable unit can be searched more quickly, the searching efficiency is improved, and the error probability is reduced.

Note that solid lines and broken lines in fig. 5 are used to distinguish different transmission paths.

The information processing system provided by the embodiment of the present invention may further include an electronic device 54; the electronic device 54 may obtain the reporting information from the cloud device. Accordingly, the method can be used for solving the problems that,

the field replaceable unit 51 may be further configured to obtain information to be identified sent by the electronic device 54, where the information to be identified includes report information obtained by the electronic device 54 from the cloud device 53, and a communication distance between the electronic device 54 and the field replaceable unit is smaller than a preset distance threshold; judging whether report information contained in the information to be identified is matched with locally stored report information; and when the report information contained in the information to be identified is matched with the locally stored report information, outputting a prompt signal.

The electronic device 54 may be a radio frequency electronic tag.

The report information sent by the field replaceable unit 51 to the cloud device 53 may further include: device identification information of the field replaceable unit.

In an alternative embodiment, the cloud device 53 may generate another field replaceable unit location profile, referred to herein as a second location profile for convenience of description, based on the location information of the field replaceable unit and the device identification of the field replaceable unit, and record the device identification information of the field replaceable unit at each location in the second location profile in addition to the location of each field replaceable unit, so that the monitoring personnel can confirm whether the field replaceable unit to be searched is accurately located according to the device identification information. Furthermore, when the field replaceable unit at a certain position is abnormal, an abnormal mark can be marked at the position, so that monitoring personnel can more intuitively, quickly and accurately position the abnormal field replaceable unit.

In an alternative embodiment, in addition to recording the device identification information of the field replaceable unit in the field replaceable unit location profile (either the first location profile or the second location profile), the predetermined monitored parameters of each field replaceable unit may be displayed in real time in the field replaceable unit location profile to display a dynamic distribution of the predetermined monitored parameters of the field replaceable unit, providing a basis for statistical analysis of a large number of field replaceable units. The predetermined monitoring parameter may be temperature, humidity, etc.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. 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 invention. Thus, the present invention 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 (27)

1. An information processing method applied to a field replaceable unit, the method comprising:

acquiring position information of the field replaceable unit, wherein the position information is three-dimensional space position information of the field replaceable unit relative to preset positioning equipment;

acquiring running state monitoring information of the field replaceable unit;

and sending report information to cloud equipment, wherein the report information comprises the position information and the running state monitoring information.

2. The method of claim 1, further comprising:

acquiring to-be-identified information sent by electronic equipment, wherein the to-be-identified information comprises report information acquired by the electronic equipment from the cloud equipment, and the communication distance between the field replaceable unit and the electronic equipment is smaller than a preset distance threshold;

judging whether the report information contained in the information to be identified is matched with the stored report information;

and when the report information contained in the information to be identified is matched with the stored report information, outputting a prompt signal.

3. The method according to claim 1 or 2, wherein the report information further comprises: device identification information of the field replaceable unit.

4. A method according to claim 1 or 2, characterized in that at least one of said pre-positioning devices is provided.

5. An information processing method is applied to cloud equipment, and is characterized in that the method comprises the following steps:

receiving report information sent by a field replaceable unit, the report information including: location information of the field replaceable unit, and operational status monitoring information of the field replaceable unit; the position information is three-dimensional spatial position information of the field replaceable unit relative to a preset positioning device.

6. The method of claim 5, further comprising:

sending the report information to an electronic device, the electronic device being capable of communicating with the field replaceable unit so that the field replaceable unit can obtain the report information sent by the electronic device, determine whether the report information sent by the electronic device matches the stored report information, and output a prompt signal when the determination result is that the report information and the stored report information match; wherein a communication distance between the field replaceable unit and the electronic device is less than a preset distance threshold.

7. The method of claim 5, wherein the report information further comprises: device identification information of the field replaceable unit.

8. The method of claim 7, wherein the cloud device receives report information sent by a plurality of field replaceable units, the method further comprising:

a field replaceable unit location profile is generated based on the location information of the field replaceable unit and the device identification information of the field replaceable unit.

9. The method of claim 8, further comprising:

when the operating condition monitoring information for a first field replaceable unit of the plurality of field replaceable units indicates that the first field replaceable unit is abnormal, the first field replaceable unit is displayed in a label manner in the field replaceable unit location distribution map to prompt the first field replaceable unit to be abnormal.

10. The method of claim 8, further comprising:

displaying the predetermined monitoring parameters of each field replaceable unit in real time in the field replaceable unit position profile to display dynamic individualities of the predetermined monitoring parameters of the plurality of field replaceable units.

11. A field replaceable unit, comprising:

the communication module is used for acquiring the position information of the field replaceable unit, and the position information is the three-dimensional space position information of the communication module relative to preset positioning equipment;

the monitoring module is used for monitoring the running state of the field replaceable unit so as to acquire running state monitoring information; and sending report information to cloud equipment, wherein the report information comprises the position information and the running state monitoring information.

12. The field replaceable unit of claim 11, further comprising: a prompt signal output module;

the communication module is further configured to acquire information to be identified sent by the electronic device, where the information to be identified includes report information acquired by the electronic device from the cloud device, and a communication distance between the communication module and the electronic device is smaller than a preset distance threshold;

the monitoring module is further used for judging whether the report information contained in the information to be identified is matched with the stored report information; and when the report information contained in the information to be identified is matched with the stored report information, controlling the prompt signal output module to output a prompt signal.

13. The field replaceable unit of claim 11 or 12, wherein the communication module is a wireless network sensor module.

14. A cloud device, comprising:

a first communication assembly configured to receive report information sent by a field replaceable unit, the report information including: location information of the field replaceable unit, and operational status monitoring information of the field replaceable unit; the position information is three-dimensional spatial position information of the field replaceable unit relative to a preset positioning device.

15. The cloud device of claim 14, further comprising:

the second communication assembly is used for sending the report information to the electronic equipment, the electronic equipment can communicate with the field replaceable unit so that the field replaceable unit can conveniently acquire the report information sent by the electronic equipment, judge whether the report information sent by the electronic equipment is matched with the stored report information or not, and output a prompt signal when the judgment result is that the report information sent by the electronic equipment is matched with the stored report information; wherein a communication distance between the field replaceable unit and the electronic device is less than a preset distance threshold.

16. The cloud device of claim 14, wherein the report information further comprises: device identification information of the field replaceable unit.

17. The cloud device of claim 16, further comprising:

a processor for generating a field replaceable unit location profile based on the location information of the field replaceable unit and the device identification information of the field replaceable unit.

18. The cloud device of claim 17, wherein said processor is further configured to,

when the operating condition monitoring information for a first field replaceable unit of the plurality of field replaceable units indicates that the first field replaceable unit is abnormal, the first field replaceable unit is displayed in a label manner in the field replaceable unit location distribution map to prompt the first field replaceable unit to be abnormal.

19. The cloud device of claim 17, wherein said processor is further configured to,

displaying the predetermined monitoring parameters of each field replaceable unit in real time in the field replaceable unit position profile to display dynamic individualities of the predetermined monitoring parameters of the plurality of field replaceable units.

20. An information processing system, comprising: the system comprises a plurality of field replaceable units, a positioning device and a cloud device; wherein,

the locating device is used for locating each field replaceable unit in the plurality of field replaceable units;

the field replaceable unit is used for acquiring position information of the field replaceable unit, wherein the position information is three-dimensional space position information of the field replaceable unit relative to the positioning equipment; acquiring running state monitoring information of the field replaceable unit; sending report information to the cloud device, wherein the report information comprises the position information and the running state monitoring information;

the cloud device is used for acquiring report information sent by each field replaceable unit.

21. The information processing system of claim 20, further comprising: an electronic device;

the electronic equipment is used for acquiring report information from the cloud equipment;

the field replaceable unit is further configured to acquire to-be-identified information sent by the electronic device, where the to-be-identified information includes report information acquired by the electronic device from the cloud device, and a communication distance between the electronic device and the field replaceable unit is smaller than a preset distance threshold; judging whether the report information contained in the information to be identified is matched with the stored report information; and when the report information contained in the information to be identified is matched with the stored report information, outputting a prompt signal.

22. The information processing system of claim 20, wherein the report information further comprises: device identification information of the field replaceable unit.

23. The information handling system of claim 22, wherein the cloud device is further configured to: a field replaceable unit location profile is generated based on the location information of the field replaceable unit and the device identification information of the field replaceable unit.

24. The information handling system of claim 23, wherein the cloud device is further configured to: when the operating condition monitoring information for a first field replaceable unit of the plurality of field replaceable units indicates that the first field replaceable unit is abnormal, the first field replaceable unit is marked and displayed in the field replaceable unit position distribution map to prompt that the first field replaceable unit is abnormal.

25. The information handling system of claim 23, wherein the cloud device is further configured to: displaying the predetermined monitoring parameters of each field replaceable unit in real time in the field replaceable unit position profile to display dynamic individualities of the predetermined monitoring parameters of the plurality of field replaceable units.

26. The information handling system of claim 21, wherein the electronic device is a radio frequency electronic tag.

27. The information handling system of claim 20 wherein the pointing device has at least one.