CN111596728B - Communication network optimization method and device - Google Patents

Abstract

The application relates to the technical field of communication, and particularly discloses a communication network optimization device which comprises a data acquisition module, a screening module and an information generation module; the application also discloses a communication network optimization method, which comprises the steps of obtaining a plurality of operation object cells with communication quality problems and a plurality of corresponding solution suggestions; according to the influence degrees of a plurality of object cells and/or a plurality of solution suggestions, screening one or a plurality of solution suggestions and one or a plurality of operation object cells from a plurality of solution suggestions and a plurality of operation object cells; and generating network optimization information based on the one or more resolution suggestions and the one or more operand cells, the network optimization information indicating operation of the one or more operand cells according to the one or more resolution suggestions. The purpose of this patent lies in solving the inside easy ash that falls of communication PDA body of data acquisition module, influences the life of pen-touch handheld computer, increases the problem of communication network equipment's cost.

Description

Communication network optimization method and device

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method and an apparatus for optimizing a communication network.

Background

With the development of computer technology, sensor technology and electronic technology, large-scale data growth has appeared in various fields including healthcare, internet, finance, supply chain, communication and other fields in the last 20 years. The term big data is just producing a huge data set that is used to describe in the context of the explosive growth of data around the world.

The big data value chain can be divided into 4 stages, namely data generation, data acquisition, data storage and data analysis. Data analysis is the last and most important stage of the big data value chain and is the basis of big data value application.

The big data application is a process of mining effective information from big data by using a data analysis method, providing an auxiliary decision for a user and realizing the value of the big data.

In the field of wireless communication, network management KPI (key performance indicator) data, network configuration data, tracking data reported by a base station, terminal drive test data, and the like are currently used to develop a wireless network decision system based on big data, and it is expected that analysis of mass data can be performed to diagnose and analyze a wireless network, guarantee network operation and maintenance, improve network quality, and mine user value requirements, and meanwhile, planning and development of the network can be predicted, so as to provide data support for next generation network design.

The existing wireless network big data platform is basically in the stage of data collection, classification and aggregation, can give TopN (the first N) poor quality cells in a network and prompt a network engineer to position problem cells, but does not give an intelligent solution, and needs to be autonomously analyzed by the network optimization engineer according to experience. Therefore, the prior art scheme has the disadvantages that network problems are solved by counting the TopN quality difference cells through network management KPI, quality difference region statistics and output statistics of the TopN problem cells can be carried out, and problem solving needs to be carried out by a network optimization engineer for problem positioning, analysis, implementation and verification.

Chinese patent application No. CN201710270079.3 discloses a communication network optimization method, which includes:

acquiring a plurality of operation object cells with communication quality problems and a plurality of corresponding solution suggestions;

according to the influence degrees of the plurality of operation object cells and/or the plurality of solution suggestions, screening one or more solution suggestions and one or more operation object cells from the plurality of solution suggestions and the plurality of operation object cells;

generating network optimization information based on the one or more resolution suggestions and the one or more operand cells, the network optimization information indicating that the one or more operand cells are to be operated according to the one or more resolution suggestions.

In the above scheme, a communication network optimization apparatus is further disclosed, which includes:

the data acquisition module is used for acquiring a plurality of operation object cells with communication quality problems and a plurality of corresponding solution suggestions;

a screening module for screening one or more solution suggestions and one or more operation object cells from the plurality of solution suggestions and the plurality of operation object cells according to the influence degrees of the plurality of operation object cells and/or the plurality of solution suggestions;

an information generating module, configured to generate network optimization information according to the one or more solution suggestions and the one or more operand cells, where the network optimization information is used to instruct the one or more operand cells to operate according to the one or more solution suggestions.

After the object cell with the communication quality problem and the solution suggestion are analyzed, screening is carried out according to the influence degrees of the object cell and the solution suggestion, and a solution is formed after the key solution suggestion and the object cell are screened out, so that the communication quality problem is favorably solved.

The communication PDA body (pen-touch handheld computer) is needed in the process of optimizing the communication network, and the existing communication PDA body has the following problems:

1. the heat dissipation is not timely in the continuous use process, the service life of the pen-touch handheld computer is easily shortened, and the equipment cost of communication network optimization is increased;

2. in the using process, dust is easy to fall in the pen-touch handheld computer, the service life of the pen-touch handheld computer is influenced, and the cost of communication network equipment is increased;

3. in the process of holding the pen-touch handheld computer by a hand, the pen-touch handheld computer generates heat, the hand is prone to sweating, the hand comfort level is low, and the pen-touch handheld computer is prone to slipping.

Although the problem of communication quality is solved in the scheme, the problems that the interior of the pen-touch handheld computer is easy to fall ash, the service life of the pen-touch handheld computer is influenced, and the cost of communication network equipment is increased exist.

Disclosure of Invention

Aiming at the defects in the prior art, the technical problem solved by the invention is to provide a communication network optimization method and a communication network optimization device, and solve the problems that the interior of a pen-touch handheld computer is easy to fall ash, the service life of the pen-touch handheld computer is influenced, and the cost of communication network equipment is increased.

In order to solve the problems, the technical scheme adopted by the invention is as follows: a communication network optimization apparatus, comprising:

the data acquisition module is used for acquiring a plurality of operation object cells with communication quality problems and a plurality of corresponding solution suggestions;

a screening module for screening one or more solution suggestions and one or more operation object cells from the plurality of solution suggestions and the plurality of operation object cells according to the influence degrees of the plurality of operation object cells and/or the plurality of solution suggestions;

an information generation module that generates network optimization information based on the one or more resolution suggestions and the one or more operand cells, the network optimization information indicating that the one or more operand cells are to be operated according to the one or more resolution suggestions;

the data acquisition module acquires a plurality of operation object cells with communication quality problems and a plurality of corresponding solution suggestions by adopting the following equipment: the PDA communication device comprises a PDA communication body, wherein the PDA communication body is cylindrical, the axis of the PDA communication body is arranged along the vertical direction, a hollow cylindrical shell is coaxially sleeved on the periphery of the PDA communication body, and the bottom of the shell is provided with an opening; the upper end of the PDA body penetrates through the top of the shell and is connected with the shell in a sliding and sealing manner; the PDA body is internally provided with an equipment cavity, the top of the PDA is provided with a one-way inlet valve for introducing air into the equipment cavity, the bottom of the PDA is provided with a first one-way outlet valve for discharging the air in the equipment cavity, the bottom of the PDA body is fixedly provided with a cylindrical first fixing plate, and the first fixing plate is provided with a second one-way outlet valve for discharging the air above the first fixing plate to the lower part of the first fixing plate; the periphery of the first fixing plate is provided with external threads, the inner side wall of the shell is provided with internal threads matched with the external threads, the first fixing plate is hermetically connected with the shell, when the shell is limited in the vertical direction, the shell rotates forwards when the first fixing plate moves downwards, and when the first fixing plate moves upwards, the shell rotates backwards; the top of the shell is fixed with brush hair which is attached to the PDA body; the top and the bottom of the side wall of the PDA body are both provided with bulges which limit the PDA body relative to the shell.

The technical principle of the technical scheme is as follows:

1. the connection structure and principle of all modules adopt the technology in Chinese patent with application number CN 201710270079.3;

2. the equipment cavity, the one-way inlet valve and the first one-way outlet valve are arranged, when the outlet end of the first one-way outlet valve generates negative pressure, the first one-way outlet valve and the one-way inlet valve are opened, cooling air can be sucked into the equipment cavity and then discharged, and equipment in the equipment cavity can be cooled rapidly;

3. the PDA body is fixed by a hand, the shell is matched with the first fixing plate, when the PDA body moves upwards or downwards relative to the shell, the shell can rotate, the bristles can brush down dust on the outer side wall of the PDA body, and when the PDA body moves downwards relative to the shell, a negative pressure is generated in a gap between the shell above the first fixing plate and the PDA body, the gap between the shell above the first fixing plate and the PDA body sucks external air through the first one-way outlet valve, when the PDA body moves downwards relative to the shell, a positive pressure is generated in a gap between the shell above the first fixing plate and the PDA body, and dust-containing gas in the gap between the shell above the first fixing plate and the PDA body is discharged through the second one-way outlet valve;

4 the top and the bottom of the side wall of the PDA body are both provided with protrusions for limiting the PDA body relative to the shell, so that the PDA body is limited at the top of the shell or completely inside the shell, and the PDA body is convenient to use and store.

The beneficial effect that this scheme produced is: compared with the existing PDA body, the interior of the existing PDA body is easy to fall ash, the service life of the PDA body is influenced, and the cost of communication network equipment is increased; in the scheme of the application, the PDA body is pulled out of the shell when the PDA body is used by arranging the shell, the shell is held by a hand, the PDA body is convenient to use, when the temperature of the PDA body rises or the PDA body is used, the PDA body is fixed by the hand, the shell is matched with the first fixing plate, when the PDA body moves upwards or downwards relative to the shell, the shell can rotate, the bristles can brush down dust on the outer side wall of the PDA body, when the PDA body moves downwards relative to the shell, the gap between the shell above the first fixing plate and the PDA body sucks external air through the first one-way outlet valve, when the PDA body moves downwards relative to the shell, dust-containing gas in the gap between the shell above the first fixing plate and the PDA body is discharged through the second one-way outlet valve, the internal quick temperature reduction of the PDA body is realized, and the dust on the PDA body is removed, make things convenient for PDA body continuous use and dust removal, during PDA body accomodates into the shell after finishing using, avoid PDA body to damage, reduce the equipment cost of communication network optimization.

Furthermore, a handle is fixed at the top of the PDA body, so that the PDA body can be conveniently fixed.

Further, a cylindrical second fixing plate is fixed at the lower part of the shell, the second fixing plate is positioned below the first fixing plate and is parallel to the first fixing plate, and the second fixing plate is hermetically connected with the inner side wall of the shell; a press valve is arranged on the second fixing plate, a valve core of the press valve is vertically arranged upwards, and a filter box is arranged at the lower end of the press valve; a groove arranged along the radial direction of the shell is formed in the periphery of the shell, and first sponge is arranged in the groove; the outlet end of the filter box is communicated with the top of the groove through a pipeline.

The shell is held by hands in the process of using the PDA body, the first sponge can adsorb sweat on a palm, the PDA body is prevented from sliding down due to the fact that the palm rises the sweat, in the process that the first fixing plate moves upwards, dust-containing gas enters a gap between the first fixing plate and the second fixing plate through the second one-way outlet valve, in the process that the first fixing plate moves downwards, the second one-way outlet valve is closed, air between the first fixing plate and the second fixing plate is compressed, when the first fixing plate moves to be in contact with a valve core of the pressing valve, the pressing valve is opened, the dust-containing gas between the first fixing plate and the second fixing plate is rapidly discharged into the filter box from the pressing valve, the dust-containing gas is filtered by the filter box, the dust-containing gas rapidly reaches the first sponge through the blowing pipe, the first sponge is dried at a high wind speed, and meanwhile, the interior of the palm holding the shell is dried at a high wind speed, make the sustainable sweat that adsorbs the palm inside of first sponge, improve the inside comfortable degree of palm.

When the first sponge absorbs sweat to be saturated, the shell rotates relative to the PDA body to generate centrifugal force, so that sweat in the first sponge can be thrown away, the first sponge is dried, and the first sponge can continuously absorb sweat by drying air.

After a period of use, the first sponge can generate odor due to sweat absorption, clean water can be sprayed on the first sponge, and then the first sponge is dried off and repeated for a plurality of times, so that the first sponge can be continuously used.

Further, be provided with the spring on the second fixed plate, the lower extreme of spring is fixed on the second fixed plate, and the upper end and the first fixed plate laminating of spring.

When the PDA body reaches the lower extreme position, the hand holding the PDA body quickly lifts the PDA body upwards, and the shell moves downwards relative to the PDA body under the elastic force of the spring and rotates until the PDA body is positioned at the upper end of the shell.

Furthermore, the air inlet end of the one-way inlet valve is connected with a Z-shaped pipe, the Z-shaped pipe comprises a horizontal outlet section, an inclined middle section and a horizontal inlet section, the outlet section of the Z-shaped pipe is communicated with the one-way inlet valve, the inlet section of the Z-shaped pipe is far away from the PDA body, the outlet section of the Z-shaped pipe is a hard pipe, the inlet section and the middle section of the Z-shaped pipe are hoses, and a second sponge is filled in the inlet section of the Z-shaped pipe.

The arrangement of the Z-shaped pipe can prevent rainwater from entering the one-way inlet valve, air firstly absorbs water through the second sponge before entering the equipment cavity, the second sponge absorbs water to be saturated along with the passage of time, and water in the second sponge needs to be removed, so that the top of the shell can extrude the Z-shaped pipe when the PDA body moves downwards relative to the shell to the lower limit position, the lower section and the middle section of the Z-shaped pipe are extruded to deform, the middle section of the Z-shaped pipe is blocked, and water in the second sponge in the lower section of the Z-shaped pipe is extruded out from the inlet end of the Z-shaped pipe; the Z-shaped pipe can allow air to pass through in the process that the PDA body moves upwards relative to the shell or the PDA body moves downwards until the Z-shaped pipe is not in contact with the shell.

A communication network optimization method using the communication network optimization apparatus, comprising the steps of:

the method comprises the following steps: before the PDA body is used, the PDA is drawn out and limited relative to the shell, and the PDA body can be used by holding the shell by hands; after the PDA body is used, the PDA is stored into the shell;

step two: according to the influence degrees of the plurality of operation object cells and/or the plurality of solution suggestions, screening one or more solution suggestions and one or more operation object cells from the plurality of solution suggestions and the plurality of operation object cells;

step three: generating network optimization information based on the one or more resolution suggestions and the one or more operand cells, the network optimization information indicating that the one or more operand cells are to be operated according to the one or more resolution suggestions.

The PDA body is accommodated in the shell after use, and the PDA body is particularly suitable for optimization of communication engineering, can realize dust removal, heat dissipation and accommodation without a power supply, avoids damage to the PDA body and reduces cost of communication network optimization.

Drawings

Fig. 1 is an overall structural view of an embodiment of the present invention.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the PDA comprises a PDA body 10, a handle 11, a one-way inlet valve 12, a Z-shaped pipe 13, an equipment cavity 14, a first one-way outlet valve 15, a protrusion 16, a first fixing plate 17, a second one-way outlet valve 18, a shell 20, bristles 21, a second fixing plate 22, a spring 23, a pressing valve 24, a filter box 25, an air blowing pipe 26, a groove 27, a first sponge 28, a through hole 29, a second sponge 132 and a hose 131.

The embodiment is basically as shown in the attached figures 1-2:

a communication network optimization apparatus, comprising:

the data acquisition module is used for acquiring a plurality of operation object cells with communication quality problems and a plurality of corresponding solution suggestions;

a screening module for screening one or more solution suggestions and one or more operation object cells from the plurality of solution suggestions and the plurality of operation object cells according to the influence degrees of the plurality of operation object cells and/or the plurality of solution suggestions;

an information generating module, configured to generate network optimization information according to the one or more solution suggestions and the one or more operand cells, where the network optimization information is used to instruct the one or more operand cells to operate according to the one or more solution suggestions.

The connection structure and principle of each module adopt the technology of Chinese patent with application number CN 201710270079.3.

The data acquisition module acquires a plurality of operation object cells with communication quality problems and a plurality of corresponding solution suggestions by adopting the following equipment: the PDA communication device comprises a communication PDA body 10 and a shell 20, wherein as shown in figure 1, a circular arc-shaped handle 11 is fixed at the top of the PDA body 10, so that the PDA body 10 is conveniently fixed; the shape of the communication PDA body 10 is cylindrical, the axis of the communication PDA body 10 is arranged along the vertical direction, and the outer side wall of the communication PDA body 10 is made of stainless steel materials, so that heat dissipation is facilitated; the periphery of the communication PDA body 10 is coaxially sleeved with a hollow cylindrical shell 20, the bottom of the shell 20 is a curved surface, and the center of the bottom of the shell 20 is provided with a through hole 29; the upper end of the PDA body 10 penetrates the top of the casing 20 and is connected with the casing 20 in a sliding and sealing way; an equipment cavity 14 is arranged inside the PDA body 10, a one-way inlet valve 12 for introducing air into the equipment cavity 14 is arranged at the top of the PDA, as shown in FIG. 2, a Z-shaped pipe 13 is connected to the air inlet end of the one-way inlet valve 12, the Z-shaped pipe 13 comprises a horizontal outlet section, an inclined middle section and a horizontal inlet section, the outlet section of the Z-shaped pipe 13 is communicated with the one-way inlet valve 12, the inlet section of the Z-shaped pipe 13 is far away from the PDA body 10, the outlet section of the Z-shaped pipe 13 is a hard pipe, the inlet section and the middle section of the Z-shaped pipe 13 are hoses 131, and a second sponge 132 is filled in the inlet section of the Z-shaped pipe 13; as shown in fig. 1, a first one-way outlet valve 15 for discharging gas in the device cavity 14 is arranged at the bottom of the PDA, a cylindrical first fixing plate 17 is fixed at the bottom of the PDA body 10, and a second one-way outlet valve 18 for discharging gas above the first fixing plate 17 to below the first fixing plate 17 is arranged on the first fixing plate 17; the periphery of the first fixing plate 17 is provided with external threads, the inner side wall of the shell 20 is provided with internal threads matched with the external threads, the first fixing plate 17 is hermetically connected with the shell 20, when the shell 20 is limited in the vertical direction and the first fixing plate 17 moves downwards, the shell 20 rotates forwards, and when the first fixing plate 17 moves upwards, the shell 20 rotates backwards; the top of the shell 20 is fixed with soft plastic brush bristles 21, and the brush bristles 21 are attached to the PDA body 10; the top and the bottom of the side wall of the PDA body 10 are both provided with an arc-shaped rubber bulge 16 which limits the PDA body 10 relative to the shell 20; a cylindrical second fixing plate 22 is fixed at the lower part of the housing 20, the second fixing plate 22 is positioned below the first fixing plate 17 and is parallel to the first fixing plate 17, and the second fixing plate 22 is hermetically connected with the inner side wall of the housing 20; a spring 23 is arranged on the second fixing plate 22, the lower end of the spring 23 is fixed on the second fixing plate 22, and the upper end of the spring 23 is attached to the first fixing plate 17; the number of the springs 23 is set to 4 and is circumferentially and uniformly distributed about the axis of the first fixing plate 17; the second fixing plate 22 is provided with a press valve 24, a valve core of the press valve 24 is vertically arranged upwards, the press valve 24 is of the conventional structure, the lower end of the press valve 24 is in threaded connection with a filter box 25, and a through hole 29 is formed to facilitate mounting, dismounting and replacement of the filter box 25; a cylindrical groove 27 with an axis arranged along the radial direction of the shell 20 is formed in the periphery of the shell 20, a first sponge 28 is arranged in the groove 27, one end of the first sponge 28, which is far away from the PDA body 10, is spherical, and protrudes out of the opening of the groove 27 by 0.2 cm; the number of the grooves 27 is 40 and the grooves are evenly distributed on the shell 20 at intervals; the outlet end of the filter box 25 communicates with the top of the recess 27 through the snorkel 26 to prevent perspiration from entering the interior of the housing 20 through the recess 27 and the snorkel 26.

The specific implementation process is as follows:

before using the PDA body 10, holding the handle 11 on the top of the PDA body 10, pushing the housing 20 downwards, the first fixing plate 17 and the housing 20 are matched to make the housing 20 rotate relative to the PDA body 10 and slide downwards to the limit position of the lower end, using the bulge 16 at the lower end of the side wall of the PDA body 10 to limit the PDA body 10 relative to the housing 20, holding the housing 20 by hand can use the PDA body 10, in the process of using the PDA body 10, the PDA body 10 radiates heat through the outer side wall, holding the housing 20 by hand in the process of using the PDA body 10, the first sponge 28 can absorb sweat on the palm to avoid the PDA body 10 sliding caused by the sweat on the palm, after the PDA body 10 is used or when the temperature inside the PDA body 10 is too high, fixing the PDA body 10 by hand, the housing 20 is matched with the first fixing plate 17, when the PDA body 10 moves upwards or downwards relative to the housing 20, to realize that the case 20 can be rotated, the brush 21 can brush down dust on the outer sidewall of the PDA body 10, and when the PDA body 10 moves downward with respect to the case 20, a negative pressure is generated in the space between the case 20 above the first fixing plate 17 and the PDA body 10, the space between the case 20 above the first fixing plate 17 and the PDA body 10 sucks in the external air through the first one-way outlet valve 15 and the first one-way inlet valve 12, when the PDA body 10 moves upward with respect to the case 20, a positive pressure is generated in the space between the case 20 above the first fixing plate 17 and the PDA body 10, and the dust-containing gas in the space between the case 20 above the first fixing plate 17 and the PDA body 10 is discharged to the space between the case 20 and the first fixing plate 17 and the second fixing plate 22 through the second one-way outlet valve 18, and when the PDA body 10 moves downward with respect to the case 20, the second one-way outlet valve 18 is closed, the air between the first fixing plate 17 and the second fixing plate 22 is compressed, when the first fixing plate 17 moves to be in contact with the valve core of the pressing valve 24, the pressing valve 24 is opened, the dust-containing gas between the first fixing plate 17 and the second fixing plate 22 is rapidly discharged from the pressing valve 24 to the filter box 25, the dust-containing gas is filtered by the filter box 25 to rapidly reach the first sponge 28 through the blowing pipe 26 after the dust is filtered by the filter box 25, the first sponge 28 is dried by high wind speed, meanwhile, the interior of the palm holding the shell 20 is dried by high wind speed, the first sponge 28 can continuously adsorb sweat in the palm, and the comfort degree of the interior of the palm is improved.

The Z-shaped pipe 13 is arranged to prevent rainwater from entering the one-way inlet valve 12, air firstly absorbs water through the second sponge 132 before entering the equipment cavity 14, the second sponge 132 absorbs water to be saturated along with the passage of time, and water in the second sponge 132 needs to be removed, so that the top of the shell 20 can extrude the Z-shaped pipe 13 to enable the lower section and the middle section of the Z-shaped pipe 13 to be extruded and deformed so as to plug the middle section of the Z-shaped pipe 13 when the PDA body 10 moves downwards relative to the shell 20 to the lower limit position, and meanwhile, water in the second sponge 132 in the lower section of the Z-shaped pipe 13 is extruded out from the inlet end of the Z-shaped pipe 13; the 'Z' -shaped pipe 13 can allow air to pass through during the process that the PDA body 10 moves upwards relative to the shell 20 or the PDA body 10 moves downwards until the 'Z' -shaped pipe 13 is not in contact with the shell 20.

When the first sponge 28 is saturated, the casing 20 rotates relative to the PDA body 10 to generate centrifugal force, so that sweat in the first sponge 28 can be thrown out, the first sponge 28 can be dried, and the first sponge 28 can continuously absorb sweat by drying air.

After a period of use, the first sponge 28 may smell due to sweat absorption, and clean water may be sprayed onto the first sponge 28, and then the first sponge 28 may be dried off and repeated several times, thereby making the first sponge 28 sustainable for use.

A communication network optimization method using a communication network optimization apparatus, comprising the steps of:

the method comprises the following steps: before using PDA body 10, holding PDA body 10, pushing casing 20 downwards, first fixing plate 17 and casing 20 cooperating to make casing 20 rotate relative to PDA body 10 and slide downwards to the limit position of lower end, using projection 16 on the lower end of side wall of PDA body 10 to limit PDA body 10 relative to casing 20, holding casing 20 to use PDA body 10, after PDA body 10 is used, the end of casing 20 far away from PDA body 10 is pressed on the ground and downwards to press the top of PDA body 10, first fixing plate 17 and casing 20 cooperating to make casing 20 rotate, brush 21 on casing 20 brushes off the dust on PDA body 10, at the same time the gap between casing 20 and PDA body 10 produces negative pressure, one-way outlet valve and first one-way outlet valve 15 are opened, the outside air is sucked into the casing 20, and the outside air cools the equipment in the equipment cavity 14 through the equipment cavity 14 of the PDA body 10; holding the PDA body 10 to push the shell 20 downwards, the shell 20 rotates to drive the brush 21 to brush off dust on the PDA body 10 again, positive pressure is generated in a gap between the shell 20 and the PDA body 10, the first one-way outlet valve 15 is closed, the second one-way outlet valve 18 is opened, gas containing dust is discharged from the second one-way outlet valve 18 through the gap between the shell 20 and the PDA body 10, the operation is repeated continuously, after the PDA body 10 is used, the equipment in the equipment cavity 14 of the PDA body 10 is cooled rapidly, and the dust on the PDA body 10 is brushed off and discharged to the outside; after the PDA body 10 is dedusted and cooled, one end of the casing 20 far away from the PDA body 10 is supported on the ground and pressed down to the top of the PDA body 10 until the PDA body 10 moves to the lower limit position and the PDA body 10 is limited on the casing 20 by the bulge 16 at the upper end of the outer side wall of the PDA body 10, so that the PDA body 10 is accommodated in the casing 20;

step two: according to the influence degrees of the plurality of operation object cells and/or the plurality of solution suggestions, screening one or more solution suggestions and one or more operation object cells from the plurality of solution suggestions and the plurality of operation object cells;

step three: generating network optimization information based on the one or more resolution suggestions and the one or more operand cells, the network optimization information indicating that the one or more operand cells are to be operated according to the one or more resolution suggestions.

The technology of the communication network optimization method except the PDA body 10 adopts the technology of chinese patent with application number CN 201710270079.3.

The PDA body 10 is dedusted, cooled and stored by the method, dedusting and discharging of the outer surface of the PDA body 10 can be realized after the PDA body 10 is used, rapid heat dissipation in the equipment cavity 14 of the PDA body 10 can be realized when the temperature is raised in the using process of the PDA body 10 or after the PDA body is used, and the PDA body 10 is stored in the shell 20 after the PDA body 10 is used.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (6)

1. A communication network optimization apparatus, comprising:

the data acquisition module is used for acquiring a plurality of operation object cells with communication quality problems and a plurality of corresponding solution suggestions;

a screening module for screening one or more solution suggestions and one or more operation object cells from the plurality of solution suggestions and the plurality of operation object cells according to the influence degrees of the plurality of operation object cells and/or the plurality of solution suggestions;

an information generation module that generates network optimization information based on the one or more resolution suggestions and the one or more operand cells, the network optimization information indicating that the one or more operand cells are to be operated according to the one or more resolution suggestions;

the method is characterized in that: the data acquisition module acquires a plurality of operation object cells with communication quality problems and a plurality of corresponding solution suggestions by adopting the following equipment: the PDA communication device comprises a PDA communication body, wherein the PDA communication body is cylindrical, the axis of the PDA communication body is arranged along the vertical direction, a hollow cylindrical shell is coaxially sleeved on the periphery of the PDA communication body, and the bottom of the shell is provided with an opening; the upper end of the PDA body penetrates through the top of the shell and is connected with the shell in a sliding and sealing manner; the PDA body is internally provided with an equipment cavity, the top of the PDA is provided with a one-way inlet valve for introducing air into the equipment cavity, the bottom of the PDA is provided with a first one-way outlet valve for discharging the air in the equipment cavity, the bottom of the PDA body is fixedly provided with a cylindrical first fixing plate, and the first fixing plate is provided with a second one-way outlet valve for discharging the air above the first fixing plate to the lower part of the first fixing plate; the periphery of the first fixing plate is provided with external threads, the inner side wall of the shell is provided with internal threads matched with the external threads, the first fixing plate is hermetically connected with the shell, when the shell is limited in the vertical direction, the shell rotates forwards when the first fixing plate moves downwards, and when the first fixing plate moves upwards, the shell rotates backwards; the top of the shell is fixed with brush hair which is attached to the PDA body; the top and the bottom of the side wall of the PDA body are both provided with bulges which limit the PDA body relative to the shell.

2. The communication network optimization apparatus of claim 1, wherein: the top of the PDA body is fixed with a handle.

3. The communication network optimization apparatus of claim 1, wherein: a cylindrical second fixing plate is fixed at the lower part of the shell, is positioned below the first fixing plate and is parallel to the first fixing plate, and is hermetically connected with the inner side wall of the shell; a press valve is arranged on the second fixing plate, a valve core of the press valve is vertically arranged upwards, and a filter box is arranged at the lower end of the press valve; a groove arranged along the radial direction of the shell is formed in the periphery of the shell, and first sponge is arranged in the groove; the outlet end of the filter box is communicated with the top of the groove through a pipeline.

4. The communication network optimization apparatus according to claim 3, wherein: and a spring is arranged on the second fixing plate, the lower end of the spring is fixed on the second fixing plate, and the upper end of the spring is attached to the first fixing plate.

5. The communication network optimization apparatus of claim 1, wherein: the air inlet end of the one-way inlet valve is connected with a Z-shaped pipe, the Z-shaped pipe comprises a horizontal outlet section, an inclined middle section and a horizontal inlet section, the outlet section of the Z-shaped pipe is communicated with the one-way inlet valve, the inlet section of the Z-shaped pipe is far away from the PDA body, the outlet section of the Z-shaped pipe is a hard pipe, the inlet section and the middle section of the Z-shaped pipe are hoses, and second sponge is filled in the inlet section of the Z-shaped pipe.

6. A communication network optimization method using a communication network optimization apparatus according to claim 1, comprising the steps of:

the method comprises the following steps: before the PDA body is used, the PDA is drawn out and limited relative to the shell, and the PDA body can be used by holding the shell by hands; after the PDA body is used, the PDA is stored into the shell;

step two: according to the influence degrees of the plurality of operation object cells and/or the plurality of solution suggestions, screening one or more solution suggestions and one or more operation object cells from the plurality of solution suggestions and the plurality of operation object cells;

step three: generating network optimization information based on the one or more resolution suggestions and the one or more operand cells, the network optimization information indicating that the one or more operand cells are to be operated according to the one or more resolution suggestions.

Images