CN112788155A

CN112788155A - Simplified bamboo fungus cultivation method and system

Info

Publication number: CN112788155A
Application number: CN202110221425.5A
Authority: CN
Inventors: 吴小建; 龙盛风; 吴秋菊; 王泽平; 祁亮亮; 李俐颖; 郎宁; 赵承刚; 石志辉
Original assignee: Guangxi Zhuang Nationality Autonomous Region Academy of Agricultural Sciences
Current assignee: Guangxi Zhuang Nationality Autonomous Region Academy of Agricultural Sciences
Priority date: 2021-02-27
Filing date: 2021-02-27
Publication date: 2021-05-11

Abstract

The invention discloses a simplified bamboo fungus cultivation method, which comprises the following steps: generating bamboo fungus cultivation control information by a crop cultivation center server; responding to the generated dictyophora phalloidea cultivation control information, and sending the dictyophora phalloidea cultivation control information to the base station by the crop cultivation center server; monitoring system information transmitted by a base station by a mobile terminal; in response to listening to the system information transmitted by the base station, listening, by the mobile terminal, for a first reference signal transmitted on a first beam of a first cell of the base station, for a second reference signal transmitted on a second beam of the first cell of the base station, and for a third reference signal transmitted on a third beam of the first cell of the base station, and listening, by the mobile terminal, for a fourth reference signal transmitted on the first beam of a second cell of the base station, for a fifth reference signal transmitted on the second beam of the second cell of the base station, and for a sixth reference signal transmitted on the third beam of the second cell of the base station.

Description

Simplified bamboo fungus cultivation method and system

Technical Field

The invention relates to the technical field of bamboo fungus intelligent cultivation, in particular to a simplified bamboo fungus cultivation method and system.

Background

Bamboo fungus (Dictyophora indusiata (Vent. ex Pers) Fisch) also known as bamboo fungus and bamboo ginseng, and there are 4 common and edible varieties: dictyophora indusiata, Dictyophora brevifolia, Dictyophora echinovolvata and Dictyophora rubrovolvata.

The prior art CN108901593A discloses a Dictyophora rubrovalvata cultivation method, which comprises the following steps: turning over the cultivation land, ridging after turning over, and digging cultivation ditches on the ridges; sterilizing the cultivated soil by using 150-220 ml of abamectin, 1800-2200 ml of dichlorvos, 1900-2400 ml of phoxim, 165-230 ml of fenpropathrin and 80-120 g of shiitake fungus; building a greenhouse; uniformly stirring and mixing wood dust, bamboo dust, bagasse, bran, calcium superphosphate, calcium carbonate and magnesium sulfate as raw materials, performing high-temperature sterilization, breaking bamboo into halves, and putting the broken bamboo into a cultivation ditch; sterilizing the greenhouse, and inoculating the raw materials under the aseptic condition; and starting a spraying system every 2-3 days to spray water on the Dictyophora rubrovalvata.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to provide a simplified bamboo fungus cultivation method and system, which can overcome the defects of the prior art.

In order to achieve the aim, the invention provides a bamboo fungus light simplified cultivation method which is characterized by comprising the following steps:

generating bamboo fungus cultivation control information by a crop cultivation center server;

responding to the generated dictyophora phalloidea cultivation control information, and sending the dictyophora phalloidea cultivation control information to the base station by the crop cultivation center server;

monitoring system information transmitted by a base station by a mobile terminal;

in response to monitoring the system information transmitted by the base station, monitoring, by the mobile terminal, a first reference signal transmitted on a first beam of a first cell of the base station, a second reference signal transmitted on a second beam of the first cell of the base station, and a third reference signal transmitted on a third beam of the first cell of the base station, and monitoring, by the mobile terminal, a fourth reference signal transmitted on the first beam of a second cell of the base station, a fifth reference signal transmitted on the second beam of the second cell of the base station, and a sixth reference signal transmitted on the third beam of the second cell of the base station;

in response to monitoring the first reference signal, the second reference signal, the third reference signal, the fourth reference signal, the fifth reference signal, and the sixth reference signal, determining, by the mobile terminal, a first signal quality of the first reference signal, determining, by the mobile terminal, a second signal quality of the second reference signal, and determining, by the mobile terminal, a third signal quality of the third reference signal, and determining, by the mobile terminal, a fourth signal quality of the fourth reference signal, and determining, by the mobile terminal, a fifth signal quality of the fifth reference signal, and determining, by the mobile terminal, a sixth signal quality of the sixth reference signal;

in response to determining the first signal quality, the second signal quality, the third signal quality, the fourth signal quality, the fifth signal quality and the sixth signal quality, determining, by the mobile terminal, whether an averaging instruction exists in the system information;

if the average value obtaining instruction exists in the system information, calculating a first average value of the first signal quality, the second signal quality and the third signal quality by the mobile terminal, and calculating a second average value of the fourth signal quality, the fifth signal quality and the sixth signal quality by the mobile terminal;

in response to determining the first average value and the second average value, the first average value and the second average value are transmitted by the mobile terminal to the base station.

In a preferred embodiment, the bamboo fungus light simplified cultivation method comprises the following steps:

in response to receiving the first average value and the second average value, the base station judges whether the first average value is larger than the second average value;

if the first average value is larger than the second average value, the base station sends bamboo fungus cultivation control information to the mobile terminal on the first cell;

if the first average value is smaller than the second average value, the base station sends bamboo fungus cultivation control information to the mobile terminal on the second cell;

if the average value calculating instruction does not exist in the system information, the mobile terminal further judges whether the system information has a first threshold;

if the system information does not have the first threshold, calculating a first average value of the first signal quality, the second signal quality and the third signal quality by the mobile terminal, and calculating a second average value of the fourth signal quality, the fifth signal quality and the sixth signal quality by the mobile terminal;

in response to determining the first average value and the second average value, sending, by the mobile terminal, the first average value and the second average value to the base station;

if the first threshold exists in the system information, the mobile terminal judges whether any one of the first signal quality, the second signal quality and the third signal quality is greater than the first threshold.

calculating, by the mobile terminal, a first average of the first signal quality, the second signal quality, and the third signal quality if any of the first signal quality, the second signal quality, and the third signal quality is greater than a first threshold;

if the system information has the first threshold, the mobile terminal judges whether any one of the fourth signal quality, the fifth signal quality and the sixth signal quality is greater than the first threshold;

calculating, by the mobile terminal, a second average of the fourth signal quality, the fifth signal quality, and the sixth signal quality if any of the fourth signal quality, the fifth signal quality, and the sixth signal quality is greater than the first threshold;

and if the first average value is smaller than the second average value, the base station sends bamboo fungus cultivation control information to the mobile terminal on the second cell.

if the first signal quality, the second signal quality and the third signal quality are all smaller than a first threshold, and the fourth signal quality, the fifth signal quality and the sixth signal quality are all smaller than the first threshold, the mobile terminal judges the maximum value of the first signal quality, the second signal quality, the third signal quality, the fourth signal quality, the fifth signal quality and the sixth signal quality;

reporting, by the mobile terminal, a beam identifier of a first beam of the first cell to the base station if the first signal quality is judged to be maximum;

if the second signal quality is judged to be the maximum, reporting the beam identifier of the second beam of the first cell to the base station by the mobile terminal;

reporting, by the mobile terminal, a beam identifier of a third beam of the first cell to the base station if it is determined that the third signal quality is maximum;

if the fourth signal quality is judged to be the maximum, reporting the beam identifier of the first beam of the second cell to the base station by the mobile terminal;

reporting, by the mobile terminal, a beam identifier of a second beam of the second cell to the base station if it is determined that the fifth signal quality is maximum;

if the sixth signal quality is judged to be the maximum, the beam identifier of the third beam of the second cell is reported to the base station by the mobile terminal.

transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the first cell using the first beam in response to receiving the beam identifier of the first beam of the first cell;

transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the first cell using the second beam in response to receiving the beam identifier of the second beam of the first cell;

transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the first cell using the third beam in response to receiving the beam identifier of the third beam of the first cell;

transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the second cell using the first beam in response to receiving the beam identifier of the first beam of the second cell;

transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the second cell using the second beam in response to receiving the beam identifier of the second beam of the second cell;

transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the second cell using the third beam in response to receiving the beam identifier of the third beam of the second cell.

The invention provides a bamboo fungus light simplified cultivation system, which is characterized by comprising the following components:

a unit for generating dictyophora phalloidea cultivation control information by a crop cultivation center server;

means for transmitting, by the crop cultivation center server, the dictyophora cultivation control information to a base station in response to generating the dictyophora cultivation control information;

means for monitoring, by a mobile terminal, system information transmitted by a base station;

means for monitoring, by the mobile terminal, a first reference signal transmitted on a first beam of a first cell of the base station, a second reference signal transmitted on a second beam of the first cell of the base station, and a third reference signal transmitted on a third beam of the first cell of the base station, and monitoring, by the mobile terminal, a fourth reference signal transmitted on the first beam of a second cell of the base station, a fifth reference signal transmitted on the second beam of the second cell of the base station, and a sixth reference signal transmitted on the third beam of the second cell of the base station, in response to monitoring the system information transmitted by the base station;

means for determining, by the mobile terminal, a first signal quality of the first reference signal, determining, by the mobile terminal, a second signal quality of the second reference signal, determining, by the mobile terminal, a third signal quality of the third reference signal, determining, by the mobile terminal, a fourth signal quality of the fourth reference signal, determining, by the mobile terminal, a fifth signal quality of the fifth reference signal, and determining, by the mobile terminal, a sixth signal quality of the sixth reference signal in response to listening for the first reference signal, the second reference signal, the third reference signal, the fourth reference signal, the fifth reference signal, and the sixth reference signal;

means for determining, by the mobile terminal, whether an averaging instruction exists in the system information in response to determining the first signal quality, the second signal quality, the third signal quality, the fourth signal quality, the fifth signal quality, and the sixth signal quality;

a unit for calculating a first average value of the first signal quality, the second signal quality, and the third signal quality by the mobile terminal, and calculating a second average value of the fourth signal quality, the fifth signal quality, and the sixth signal quality by the mobile terminal, if there is an averaging instruction in the system information;

means for transmitting, by the mobile terminal, the first average and the second average to the base station in response to determining the first average and the second average.

In a preferred embodiment, the bamboo fungus light simplified cultivation system comprises:

means for determining, by the base station, whether the first average is greater than the second average in response to receiving the first average and the second average;

a unit for sending bamboo fungus cultivation control information to the mobile terminal on the first cell by the base station if the first average value is judged to be larger than the second average value;

a unit for sending bamboo fungus cultivation control information to the mobile terminal on the second cell by the base station if the first average value is judged to be smaller than the second average value;

a unit for further judging whether the system information has a first threshold by the mobile terminal if the average value calculating instruction does not exist in the system information;

means for calculating, by the mobile terminal, a first average of the first signal quality, the second signal quality, and the third signal quality, and calculating, by the mobile terminal, a second average of the fourth signal quality, the fifth signal quality, and the sixth signal quality, if the system information does not have the first threshold;

means for transmitting, by the mobile terminal, the first average value and the second average value to the base station in response to determining the first average value and the second average value;

means for determining, by the mobile terminal, whether any of the first signal quality, the second signal quality, and the third signal quality is greater than a first threshold if the first threshold exists in the system information.

means for calculating, by the mobile terminal, a first average of the first signal quality, the second signal quality, and the third signal quality if any of the first signal quality, the second signal quality, and the third signal quality is greater than a first threshold;

means for determining, by the mobile terminal, whether any one of a fourth signal quality, a fifth signal quality, and a sixth signal quality is greater than a first threshold if the first threshold exists in the system information;

means for calculating, by the mobile terminal, a second average of the fourth signal quality, the fifth signal quality, and the sixth signal quality if any of the fourth signal quality, the fifth signal quality, and the sixth signal quality is greater than the first threshold;

and a unit for sending bamboo fungus cultivation control information to the mobile terminal on the second cell by the base station if the first average value is judged to be smaller than the second average value.

means for determining, by the mobile terminal, a maximum value of the first signal quality, the second signal quality, the third signal quality, the fourth signal quality, the fifth signal quality, and the sixth signal quality if the first signal quality, the second signal quality, and the third signal quality are all less than a first threshold, and the fourth signal quality, the fifth signal quality, and the sixth signal quality are all less than the first threshold;

means for reporting, by the mobile terminal, a beam identifier of a first beam of the first cell to the base station if the first signal quality is determined to be maximum;

means for reporting, by the mobile terminal, a beam identifier of a second beam of the first cell to the base station if the second signal quality is determined to be maximum;

means for reporting, by the mobile terminal, a beam identifier of a third beam of the first cell to the base station if the third signal quality is judged to be maximum;

means for reporting, by the mobile terminal, a beam identifier of the first beam of the second cell to the base station if the fourth signal quality is judged to be maximum;

means for reporting, by the mobile terminal, a beam identifier of a second beam of the second cell to the base station if the fifth signal quality is judged to be maximum;

means for reporting, by the mobile terminal, a beam identifier of a third beam of the second cell to the base station if the sixth signal quality is determined to be maximum.

means for transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the first cell using the first beam in response to receiving the beam identifier of the first beam of the first cell;

means for transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the first cell using the second beam in response to receiving the beam identifier of the second beam of the first cell;

means for transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the first cell using the third beam in response to receiving the beam identifier of the third beam of the first cell;

means for transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the second cell using the first beam in response to receiving the beam identifier of the first beam of the second cell;

means for transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the second cell using the second beam in response to receiving the beam identifier of the second beam of the second cell;

means for transmitting, by the base station, bamboo fungus cultivation control information to the mobile terminal on the second cell using the third beam in response to receiving the beam identifier of the third beam of the second cell.

Compared with the prior art, the method has the advantages that with the reduction of rural labor force, the traditional agricultural production mode cannot adapt to the development trend of agriculture in new situation, the technical content of the production method may need to be improved in the current agricultural production, labor force intensive agriculture is developed into technology intensive agriculture to the greatest extent, the more reasonable method for achieving the aim is to achieve remote control of agricultural equipment based on a wireless communication technology, and in order to achieve the final purpose, the method and the system for achieving the Dictyophora indusiata simplified cultivation are provided.

Drawings

Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present invention.

FIG. 2 is a flow diagram of a method according to an embodiment of the invention.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

FIG. 2 is a flow diagram of a method according to an embodiment of the invention. As shown in the figure, the method of the present invention comprises the steps of:

step 101: generating bamboo fungus cultivation control information by a crop cultivation center server; the bamboo fungus cultivation control information can be commands for controlling operation parameters of a water spraying system, a temperature control system and a humidity control system of the bamboo fungus cultivation field; the specific bamboo fungus planting method can be developed by referring to Chinese patents in the background art or any cultivation technology known in the field;

step 102: responding to the generated dictyophora phalloidea cultivation control information, and sending the dictyophora phalloidea cultivation control information to the base station by the crop cultivation center server;

step 103: monitoring system information transmitted by a base station by a mobile terminal;

step 104: in response to monitoring the system information transmitted by the base station, monitoring, by the mobile terminal, a first reference signal transmitted on a first beam of a first cell of the base station, a second reference signal transmitted on a second beam of the first cell of the base station, and a third reference signal transmitted on a third beam of the first cell of the base station, and monitoring, by the mobile terminal, a fourth reference signal transmitted on the first beam of a second cell of the base station, a fifth reference signal transmitted on the second beam of the second cell of the base station, and a sixth reference signal transmitted on the third beam of the second cell of the base station;

step 105: in response to monitoring the first reference signal, the second reference signal, the third reference signal, the fourth reference signal, the fifth reference signal, and the sixth reference signal, determining, by the mobile terminal, a first signal quality of the first reference signal, determining, by the mobile terminal, a second signal quality of the second reference signal, and determining, by the mobile terminal, a third signal quality of the third reference signal, and determining, by the mobile terminal, a fourth signal quality of the fourth reference signal, and determining, by the mobile terminal, a fifth signal quality of the fifth reference signal, and determining, by the mobile terminal, a sixth signal quality of the sixth reference signal;

step 106: in response to determining the first signal quality, the second signal quality, the third signal quality, the fourth signal quality, the fifth signal quality and the sixth signal quality, determining, by the mobile terminal, whether an averaging instruction exists in the system information;

step 107: if the average value obtaining instruction exists in the system information, calculating a first average value of the first signal quality, the second signal quality and the third signal quality by the mobile terminal, and calculating a second average value of the fourth signal quality, the fifth signal quality and the sixth signal quality by the mobile terminal;

step 108: in response to determining the first average value and the second average value, the first average value and the second average value are transmitted by the mobile terminal to the base station.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims

1. A simplified Dictyophora indusiata cultivation method is characterized by comprising the following steps:

responding to the generated bamboo fungus cultivation control information, and sending the bamboo fungus cultivation control information to a base station by a crop cultivation center server;

in response to monitoring a first reference signal, a second reference signal, a third reference signal, a fourth reference signal, a fifth reference signal, and a sixth reference signal, determining, by a mobile terminal, a first signal quality of the first reference signal, determining, by the mobile terminal, a second signal quality of the second reference signal, and determining, by the mobile terminal, a third signal quality of the third reference signal, and determining, by the mobile terminal, a fourth signal quality of the fourth reference signal, and determining, by the mobile terminal, a fifth signal quality of the fifth reference signal, and determining, by the mobile terminal, a sixth signal quality of the sixth reference signal;

if the system information has an average value obtaining instruction, calculating a first average value of the first signal quality, the second signal quality and the third signal quality by the mobile terminal, and calculating a second average value of the fourth signal quality, the fifth signal quality and the sixth signal quality by the mobile terminal;

sending, by the mobile terminal, the first and second averages to the base station in response to determining the first and second averages.

2. The light simplified Dictyophora indusiata cultivation method according to claim 1, comprising the steps of:

in response to receiving the first average value and the second average value, judging whether the first average value is larger than the second average value by the base station;

if the first average value is larger than the second average value, the base station sends the bamboo fungus cultivation control information to the mobile terminal on a first cell;

if the first average value is smaller than the second average value, the base station sends the bamboo fungus cultivation control information to the mobile terminal on a second cell;

if the average value calculating instruction does not exist in the system information, the mobile terminal further judges whether the system information has a first threshold or not;

in response to determining the first and second averages, sending, by the mobile terminal, the first and second averages to the base station;

if a first threshold exists in the system information, the mobile terminal judges whether any one of the first signal quality, the second signal quality and the third signal quality is greater than the first threshold.

3. The light simplified Dictyophora indusiata cultivation method according to claim 2, comprising the steps of:

calculating, by the mobile terminal, a first average of the first signal quality, the second signal quality, and the third signal quality if any of the first signal quality, the second signal quality, and the third signal quality is greater than the first threshold;

if the system information has a first threshold, the mobile terminal judges whether any one of the fourth signal quality, the fifth signal quality and the sixth signal quality is greater than the first threshold;

calculating, by the mobile terminal, a second average of the fourth, fifth, and sixth signal qualities if any of the fourth, fifth, and sixth signal qualities is greater than the first threshold;

and if the first average value is smaller than the second average value, the base station sends the bamboo fungus cultivation control information to the mobile terminal on a second cell.

4. The light simplified Dictyophora indusiata cultivation method according to claim 3, comprising the steps of:

if the first signal quality, the second signal quality and the third signal quality are all smaller than the first threshold, and the fourth signal quality, the fifth signal quality and the sixth signal quality are all smaller than the first threshold, the mobile terminal judges the maximum value of the first signal quality, the second signal quality, the third signal quality, the fourth signal quality, the fifth signal quality and the sixth signal quality;

reporting, by the mobile terminal, a beam identifier of a first beam of the first cell to the base station if the first signal quality is determined to be maximum;

reporting, by the mobile terminal, a beam identifier of a second beam of the first cell to the base station if it is determined that the second signal quality is maximum;

reporting, by the mobile terminal, a beam identifier of the first beam of the second cell to the base station if it is determined that the fourth signal quality is maximum;

reporting, by the mobile terminal, a beam identifier of a third beam of the second cell to the base station if the sixth signal quality is judged to be maximum.

5. The light simplified Dictyophora indusiata cultivation method according to claim 4, wherein the light simplified Dictyophora indusiata cultivation method comprises the following steps:

transmitting, by the base station, the bamboo fungus cultivation control information to the mobile terminal on the first cell using the first beam in response to receiving the beam identifier of the first beam of the first cell;

transmitting, by the base station, the bamboo fungus cultivation control information to the mobile terminal on the first cell using the second beam in response to receiving the beam identifier of the second beam of the first cell;

transmitting, by the base station, the bamboo fungus cultivation control information to the mobile terminal on the first cell using the third beam in response to receiving the beam identifier of the third beam of the first cell;

transmitting, by the base station, the bamboo fungus cultivation control information to the mobile terminal on the second cell using the first beam in response to receiving the beam identifier of the first beam of the second cell;

transmitting, by the base station, the bamboo fungus cultivation control information to the mobile terminal on the second cell using the second beam in response to receiving the beam identifier of the second beam of the second cell;

transmitting, by the base station, the bamboo fungus cultivation control information to the mobile terminal on the second cell using the third beam in response to receiving the beam identifier of the third beam of the second cell.

6. A Dictyophora indusiata light simplified cultivation system, characterized in that, Dictyophora indusiata light simplified cultivation system includes:

means for transmitting, by a crop cultivation center server, the bamboo fungus cultivation control information to a base station in response to generating the bamboo fungus cultivation control information;

means for determining, by a mobile terminal, a first signal quality of a first reference signal, determining, by the mobile terminal, a second signal quality of a second reference signal, determining, by the mobile terminal, a third signal quality of a third reference signal, and determining, by the mobile terminal, a fourth signal quality of a fourth reference signal, determining, by the mobile terminal, a fifth signal quality of a fifth reference signal, and determining, by the mobile terminal, a sixth signal quality of a sixth reference signal in response to listening for the first reference signal, the second reference signal, the third reference signal, the fourth reference signal, the fifth reference signal, and the sixth reference signal;

means for determining, by a mobile terminal, whether an averaging instruction exists in the system information in response to determining the first signal quality, the second signal quality, the third signal quality, the fourth signal quality, the fifth signal quality, and the sixth signal quality;

means for calculating, by the mobile terminal, a first average of the first signal quality, the second signal quality, and the third signal quality, and calculating, by the mobile terminal, a second average of the fourth signal quality, the fifth signal quality, and the sixth signal quality, if there is an averaging instruction in the system information;

means for transmitting, by a mobile terminal, the first and second averages to the base station in response to determining the first and second averages.

7. The Dictyophora indusiata light simplified cultivation system of claim 6, comprising:

means for determining, by the base station, whether the first average is greater than a second average in response to receiving the first average and the second average;

a unit for sending the bamboo fungus cultivation control information to the mobile terminal on a first cell by a base station if the first average value is judged to be larger than the second average value;

a unit for sending the bamboo fungus cultivation control information to the mobile terminal on a second cell by the base station if the first average value is judged to be smaller than the second average value;

a unit configured to further determine, by the mobile terminal, whether the system information has a first threshold if the averaging instruction does not exist in the system information;

means for calculating, by the mobile terminal, a first average of the first signal quality, the second signal quality, and the third signal quality, and calculating, by the mobile terminal, a second average of the fourth signal quality, the fifth signal quality, and the sixth signal quality, if the first threshold is not present in the system information;

means for transmitting, by a mobile terminal, the first and second averages to the base station in response to determining the first and second averages;

means for determining, by a mobile terminal, if a first threshold exists in the system information, whether any of the first signal quality, the second signal quality, and the third signal quality is greater than the first threshold.

8. The Dictyophora indusiata light simplified cultivation system of claim 7, comprising:

means for calculating, by the mobile terminal, a first average of the first signal quality, the second signal quality, and the third signal quality if any of the first signal quality, the second signal quality, and the third signal quality is greater than the first threshold;

means for determining, by the mobile terminal, whether any one of the fourth signal quality, the fifth signal quality, and the sixth signal quality is greater than a first threshold if the first threshold exists in the system information;

means for calculating, by the mobile terminal, a second average of the fourth, fifth, and sixth signal qualities if any of the fourth, fifth, and sixth signal qualities is greater than the first threshold;

and a unit for sending the bamboo fungus cultivation control information to the mobile terminal on a second cell by the base station if the first average value is smaller than the second average value.

9. The Dictyophora indusiata light simplified cultivation system of claim 8, comprising:

means for determining, by the mobile terminal, a maximum value of the first, second, third, fourth, fifth, and sixth signal qualities if the first, second, and third signal qualities are all less than the first threshold and the fourth, fifth, and sixth signal qualities are all less than the first threshold;

means for reporting, by a mobile terminal, a beam identifier of a first beam of the first cell to the base station if the first signal quality is determined to be maximum;

means for reporting, by a mobile terminal, a beam identifier of a second beam of the first cell to the base station if the second signal quality is determined to be maximum;

means for reporting, by the mobile terminal, a beam identifier of a third beam of the first cell to the base station if the third signal quality is determined to be maximum;

means for reporting, by the mobile terminal, a beam identifier of the first beam of the second cell to the base station if it is determined that the fourth signal quality is maximum;

means for reporting, by the mobile terminal, a beam identifier of a second beam of the second cell to the base station if the fifth signal quality is determined to be maximum;

10. The Dictyophora indusiata light simplified cultivation system of claim 9, comprising:

means for transmitting, by a base station, the bamboo fungus cultivation control information to the mobile terminal on a first cell using a first beam in response to receiving a beam identifier of the first beam of the first cell;

means for transmitting, by a base station, the bamboo fungus cultivation control information to the mobile terminal on a first cell using a second beam in response to receiving a beam identifier of the second beam of the first cell;

means for transmitting, by the base station, the bamboo fungus cultivation control information to the mobile terminal on the first cell using a third beam in response to receiving the beam identifier of the third beam of the first cell;

means for transmitting, by a base station, the bamboo fungus cultivation control information to the mobile terminal on a second cell using a first beam in response to receiving a beam identifier of the first beam of the second cell;

means for transmitting, by a base station, the bamboo fungus cultivation control information to the mobile terminal on a second cell using a second beam in response to receiving a beam identifier of the second beam of the second cell;

means for transmitting, by the base station, the bamboo fungus cultivation control information to the mobile terminal on the second cell using a third beam in response to receiving the beam identifier of the third beam of the second cell.