CN110012445B - Method for monitoring water fluctuation condition of industrial enterprise based on low-complexity mobile terminal - Google Patents

Abstract

The invention discloses a method for monitoring water fluctuation conditions of industrial enterprises based on a low-complexity mobile terminal, which comprises the following steps: monitoring the water consumption condition by a low-complexity mobile terminal to obtain water consumption condition information; the method comprises the steps that a low-complexity mobile terminal periodically sends a mobile terminal capacity message to a water consumption condition monitoring center at preset time intervals; sending a data transmission request message to a water consumption condition monitoring center by a low-complexity mobile terminal; in response to receiving the data transmission request message, the water use condition monitoring center judges whether the mobile terminal sending the data transmission request message is a low-complexity mobile terminal or a conventional mobile terminal; if it cannot be judged whether the mobile terminal sending the data transmission request message is a low complexity mobile terminal or a normal mobile terminal or whether the mobile terminal sending the data transmission request message is a low complexity mobile terminal, a first data transmission permission message is sent to the mobile terminal by the water use condition monitoring center.

Description

Method for monitoring water fluctuation condition of industrial enterprise based on low-complexity mobile terminal

Technical Field

The invention relates to the technical field of enterprise water consumption condition monitoring, in particular to a method and a system for monitoring water fluctuation conditions of industrial enterprises based on a low-complexity mobile terminal.

Background

Water (chemical formula: H)₂O) is an inorganic substance consisting of two elements of hydrogen and oxygen, and is nontoxic. The liquid is colorless and odorless transparent liquid at normal temperature and pressure, and is called as the source of human life. Water, including natural water (rivers, lakes, atmospheric water, seawater, groundwater, etc.) [ containing impurities ]]Distilled water (theoretical pure water)]Water (water obtained by bonding hydrogen and oxygen atoms by a chemical reaction) is produced manually. Water is one of the most common substances on earth, is an important resource for living of all life including inorganic compounds and human beings, and is also the most important component of organisms. Water plays an important role in life evolution.

Prior art CN207833300U discloses an energy-conserving monitoring of building site water and electricity and wireless remote control system belongs to intelligent control, the utility model discloses the technical problem who solves is how to avoid wiring between building site water ammeter and the data collection station, saves the cost, can make things convenient for the effectual control building site power consumption water condition simultaneously, reaches energy-conserving purpose, and the technical scheme of adoption is: the intelligent household water meter comprises a data acquisition device, a wireless data transmission module, a receiving module, a cloud server, a mobile terminal or a computer end, wherein the data acquisition device comprises a reading module, an acquisition module, a remote transmission module and a power module; the computer end is provided with a data analysis platform; the mobile terminal is provided with a data analysis platform and a monitoring platform.

The prior art CN107688903A discloses a management method, an apparatus, a device and a management system for an enterprise water system, where the enterprise water system includes a plurality of interrelated water utilization systems, and the management method for the enterprise water system includes the following steps: step A, acquiring data of water inflow and water outflow of each water using system; b, performing water balance calculation of the water using system according to the acquired data, and performing water resource allocation on the enterprise water using system according to the water balance calculation result; and C, monitoring real-time data of all water utilization subsystems of the enterprise water utilization system.

In the prior art, CN104680247B is an optimization method of an industrial circulating water system, which includes the following steps of firstly, establishing a water quantity optimization model of each device circulating water subsystem according to the water use characteristics of each device circulating water subsystem with the aim of minimizing the consumption of circulating water, and determining a water quantity optimization scheme of each device circulating water subsystem; establishing a full-flow model of the circulating water system according to the pressure characteristics of the circulating water subsystems of the devices on the basis of water quantity optimization of the circulating water subsystems of the devices, carrying out accounting on the pressure of all equipment and pipe networks in the circulating water system, and determining a pressure optimization scheme of the circulating water system according to an accounting result; and thirdly, determining a power-saving optimization scheme of the circulating water system according to the operation requirement of the circulating water system on the basis of water quantity optimization and pressure optimization.

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 method and a system for monitoring water fluctuation conditions of industrial enterprises based on a low-complexity mobile terminal, which can overcome the defects of the prior art.

In order to achieve the purpose, the invention provides a method for monitoring the water fluctuation condition of an industrial enterprise based on a low-complexity mobile terminal, which comprises the following steps:

monitoring the water consumption condition by a low-complexity mobile terminal to obtain water consumption condition information;

the method comprises the steps that a low-complexity mobile terminal sends a mobile terminal capacity message to a water consumption condition monitoring center at regular intervals of preset time, wherein the mobile terminal capacity message at least can indicate whether the mobile terminal is a low-complexity mobile terminal or a conventional mobile terminal;

sending a data transmission request message to a water consumption condition monitoring center by a low-complexity mobile terminal;

in response to receiving the data transmission request message, the water use condition monitoring center judges whether the mobile terminal sending the data transmission request message is a low-complexity mobile terminal or a conventional mobile terminal;

if the mobile terminal sending the data transmission request message can not be judged to be a low-complexity mobile terminal or a conventional mobile terminal or the mobile terminal sending the data transmission request message is judged to be a low-complexity mobile terminal, the water consumption condition monitoring center sends a first data transmission permission message to the mobile terminal;

if the mobile terminal sending the data transmission request message is judged to be a conventional mobile terminal, sending a second data transmission permission message to the mobile terminal by the water consumption condition monitoring center, wherein the size of the first data transmission permission message is smaller than that of the second data transmission permission message;

and sending, by the low complexity mobile terminal, the water usage information to the water usage monitoring center in response to receiving the first data transmission permission message.

In a preferred embodiment, the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps:

broadcasting a water consumption condition information request message to a mobile terminal by a water consumption condition monitoring center, wherein the water consumption condition information request message comprises at least one of a first water condition information request message or a second water condition information request message;

if the mobile terminal sending the data transmission request message is a low-complexity mobile terminal or a conventional mobile terminal or the mobile terminal sending the data transmission request message is a low-complexity mobile terminal, the water consumption condition monitoring center broadcasts a first water condition information request message to the mobile terminal;

if the mobile terminal sending the data transmission request message is judged to be a conventional mobile terminal, the water use condition monitoring center broadcasts a second water use condition information request message to the mobile terminal; wherein the size of the first water condition information request message is smaller than the size of the second water condition information request message; and

and responding to the received first water condition information request message, and sending the water condition information to the water condition monitoring center by the low-complexity mobile terminal.

In a preferred embodiment, the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps:

broadcasting, by the low complexity mobile terminal, a first synchronization signal while listening for a second synchronization signal if the low complexity mobile terminal does not receive the first data transmission permission message within a predetermined time, wherein the second synchronization signal is broadcast by the second low complexity mobile terminal;

if a synchronization completion message sent by a second low complexity mobile terminal or a third low complexity mobile terminal is received, sending a forwarding request message to the second low complexity mobile terminal or the third low complexity mobile terminal by the low complexity mobile terminal;

in response to receiving the forwarding request message, sending, by the second low complexity mobile terminal or the third low complexity mobile terminal, a forwarding acknowledgement message to the low complexity mobile terminal;

and responding to the received forwarding confirmation message, and sending the water consumption condition information to the second low complexity mobile terminal or the third low complexity mobile terminal by the low complexity mobile terminal.

In a preferred embodiment, the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps:

if the second synchronization signal is monitored, the low complexity mobile terminal synchronizes with the second low complexity mobile terminal based on the second synchronization signal;

in response to completing synchronization, sending, by the low complexity mobile terminal, a forwarding request message to a second low complexity mobile terminal;

sending, by the second low complexity mobile terminal, a forwarding acknowledgement message to the low complexity mobile terminal in response to receiving the forwarding request message;

and responding to the received forwarding confirmation message, and sending the water consumption condition information to a second low-complexity mobile terminal by the low-complexity mobile terminal.

In a preferred embodiment, the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps:

in response to receiving the water use condition information forwarded by the low complexity mobile terminal, the second low complexity mobile terminal or the third low complexity mobile terminal sends a data transmission request message to the water use condition monitoring center;

sending a first data transmission permission message or a second data transmission permission message to a second low-complexity mobile terminal or a third low-complexity mobile terminal by a water consumption condition monitoring center;

and in response to receiving the first data transmission permission message or the second data transmission permission message, sending, by the second low complexity mobile terminal or the third low complexity mobile terminal, the water usage information forwarded by the low complexity mobile terminal to the water usage monitoring center.

The invention also provides a system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal, which comprises the following steps:

means for monitoring water usage by a low complexity mobile terminal to obtain water usage information;

means for sending, by a low complexity mobile terminal, a mobile terminal capability message to a water usage monitoring center at predetermined time intervals, wherein the mobile terminal capability message is capable of at least indicating whether the mobile terminal is a low complexity mobile terminal or a regular mobile terminal;

a unit for sending a data transmission request message to a water usage monitoring center by a low complexity mobile terminal;

a unit for judging, by the water use condition monitoring center, whether the mobile terminal that sent the data transmission request message is a low complexity mobile terminal or a conventional mobile terminal in response to receiving the data transmission request message;

a unit for transmitting a first data transmission permission message to the mobile terminal by the water use condition monitoring center if it cannot be judged whether the mobile terminal transmitting the data transmission request message is a low complexity mobile terminal or a normal mobile terminal or it is judged that the mobile terminal transmitting the data transmission request message is a low complexity mobile terminal;

means for transmitting a second data transmission permission message to the mobile terminal by the water usage monitoring center if it is determined that the mobile terminal transmitting the data transmission request message is a regular mobile terminal, wherein a size of the first data transmission permission message is smaller than a size of the second data transmission permission message; and

means for transmitting, by the low complexity mobile terminal, the water usage information to the water usage monitoring center in response to receiving the first data transmission permission message.

In a preferred embodiment, the system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises:

means for broadcasting, by the water usage monitoring center, a water usage information request message to the mobile terminal, wherein the water usage information request message comprises at least one of a first water usage information request message or a second water usage information request message;

wherein, based on the system of low complexity mobile terminal monitoring industrial enterprise water fluctuation condition includes:

a unit for broadcasting a first water condition information request message to a mobile terminal by a water condition monitoring center if it cannot be judged whether the mobile terminal transmitting the data transmission request message is a low complexity mobile terminal or a conventional mobile terminal or whether the mobile terminal transmitting the data transmission request message is a low complexity mobile terminal;

a unit for broadcasting a second water condition information request message to the mobile terminal by the water use condition monitoring center if it is judged that the mobile terminal transmitting the data transmission request message is a conventional mobile terminal; wherein the size of the first water condition information request message is smaller than the size of the second water condition information request message;

and means for sending, by the low complexity mobile terminal, the water usage information to the water usage monitoring center in response to receiving the first water usage information request message.

In a preferred embodiment, the system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises:

means for broadcasting, by the low complexity mobile terminal, a first synchronization signal if the low complexity mobile terminal does not receive the first data transmission permission message within a predetermined time, while listening for a second synchronization signal, wherein the second synchronization signal is broadcast by a second low complexity mobile terminal;

a unit for sending a forwarding request message to the second low complexity mobile terminal or the third low complexity mobile terminal by the low complexity mobile terminal if a synchronization completion message sent by the second low complexity mobile terminal or the third low complexity mobile terminal is received;

means for sending, by the second low complexity mobile terminal or a third low complexity mobile terminal, a forwarding acknowledgement message to the low complexity mobile terminal in response to receiving the forwarding request message;

means for transmitting, by the low complexity mobile terminal, water usage information to the second low complexity mobile terminal or a third low complexity mobile terminal in response to receiving the forward acknowledgement message.

In a preferred embodiment, the system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises:

means for synchronizing, by the low complexity mobile terminal, with a second low complexity mobile terminal based on a second synchronization signal if the second synchronization signal is heard;

means for sending, by the low complexity mobile terminal, a forward request message to a second low complexity mobile terminal in response to completing the synchronization;

means for sending, by the second low complexity mobile terminal, a forwarding acknowledgement message to the low complexity mobile terminal in response to receiving the forwarding request message;

means for transmitting, by the low complexity mobile terminal, water usage information to a second low complexity mobile terminal in response to receiving the forward acknowledgement message.

In a preferred embodiment, the system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises:

a unit for sending a data transmission request message to a water usage monitoring center by a second low complexity mobile terminal or a third low complexity mobile terminal in response to receiving the water usage information forwarded by the low complexity mobile terminal;

means for sending, by the water usage monitoring center, a first data transmission grant message or a second data transmission grant message to a second low complexity mobile terminal or a third low complexity mobile terminal;

means for transmitting, by the second low complexity mobile terminal or the third low complexity mobile terminal, the water usage information forwarded by the low complexity mobile terminal to the water usage monitoring center in response to receiving the first data transmission permission message or the second data transmission permission message.

Compared with the prior art, the invention has the following advantages: conventional industrial enterprise water usage monitoring is typically performed by means of a water meter or water usage monitoring device installed by the water utility company that merely monitors the amount of water provided by the water utility company to the industrial enterprise, which is not possible with respect to how the enterprise itself uses the water in particular. Some enterprises with good economic benefits may also purchase some commercial monitoring systems, the monitoring devices of the system are generally installed at all positions needing to be monitored, various monitoring results are sent to a central control terminal through physical connection, and technicians judge the water consumption condition according to parameter results. The invention provides a method for monitoring the water fluctuation condition of an industrial enterprise based on a low-complexity mobile terminal, aiming at the problems in the prior art. The invention well overcomes the difficulties in the prior art, and simultaneously designs a set of information transmission method aiming at the communication characteristics of low-cost equipment so as to realize the water consumption monitoring of the Internet of things.

Drawings

FIG. 1 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. 1 is a flow diagram of a method according to an embodiment of the invention. As shown in the figure, the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps:

step 101: the method comprises the following steps that a low-complexity mobile terminal (for example, a water monitoring device with a communication function, the simplest setting mode is that a wireless communication module is additionally arranged on the existing water monitoring device, so that a low-cost mobile monitoring terminal can be formed) monitors the water consumption condition to obtain water consumption condition information;

step 102: the method comprises the steps that a low-complexity mobile terminal sends a mobile terminal capacity message to a water consumption condition monitoring center at regular intervals of preset time, wherein the mobile terminal capacity message at least can indicate whether the mobile terminal is a low-complexity mobile terminal or a conventional mobile terminal;

step 103: sending a data transmission request message to a water consumption condition monitoring center by a low-complexity mobile terminal;

step 104: in response to receiving the data transmission request message, the water use condition monitoring center judges whether the mobile terminal sending the data transmission request message is a low-complexity mobile terminal or a conventional mobile terminal;

step 105: if the mobile terminal sending the data transmission request message can not be judged to be a low-complexity mobile terminal or a conventional mobile terminal or the mobile terminal sending the data transmission request message is judged to be a low-complexity mobile terminal, the water consumption condition monitoring center sends a first data transmission permission message to the mobile terminal;

step 106: if the mobile terminal sending the data transmission request message is judged to be a conventional mobile terminal, sending a second data transmission permission message to the mobile terminal by the water consumption condition monitoring center, wherein the size of the first data transmission permission message is smaller than that of the second data transmission permission message; and

step 107: and sending, by the low complexity mobile terminal, the water usage information to the water usage monitoring center in response to receiving the first data transmission permission message.

In a preferred embodiment, the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps: broadcasting a water consumption condition information request message to a mobile terminal by a water consumption condition monitoring center, wherein the water consumption condition information request message comprises at least one of a first water condition information request message or a second water condition information request message; if the mobile terminal sending the data transmission request message is a low-complexity mobile terminal or a conventional mobile terminal or the mobile terminal sending the data transmission request message is a low-complexity mobile terminal, the water consumption condition monitoring center broadcasts a first water condition information request message to the mobile terminal; if the mobile terminal sending the data transmission request message is judged to be a conventional mobile terminal, the water use condition monitoring center broadcasts a second water use condition information request message to the mobile terminal; wherein the size of the first water condition information request message is smaller than the size of the second water condition information request message; and responding to the received first water condition information request message, and sending the water condition information to the water condition monitoring center by the low-complexity mobile terminal.

In a preferred embodiment, the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps: broadcasting, by the low complexity mobile terminal, a first synchronization signal while listening for a second synchronization signal if the low complexity mobile terminal does not receive the first data transmission permission message within a predetermined time, wherein the second synchronization signal is broadcast by the second low complexity mobile terminal; if a synchronization completion message sent by a second low complexity mobile terminal or a third low complexity mobile terminal is received, sending a forwarding request message to the second low complexity mobile terminal or the third low complexity mobile terminal by the low complexity mobile terminal; in response to receiving the forwarding request message, sending, by the second low complexity mobile terminal or the third low complexity mobile terminal, a forwarding acknowledgement message to the low complexity mobile terminal; and responding to the received forwarding confirmation message, and sending the water consumption condition information to the second low complexity mobile terminal or the third low complexity mobile terminal by the low complexity mobile terminal.

In a preferred embodiment, the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps: if the second synchronization signal is monitored, the low complexity mobile terminal synchronizes with the second low complexity mobile terminal based on the second synchronization signal; in response to completing synchronization, sending, by the low complexity mobile terminal, a forwarding request message to a second low complexity mobile terminal; sending, by the second low complexity mobile terminal, a forwarding acknowledgement message to the low complexity mobile terminal in response to receiving the forwarding request message; and responding to the received forwarding confirmation message, and sending the water consumption condition information to a second low-complexity mobile terminal by the low-complexity mobile terminal.

In a preferred embodiment, the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps: in response to receiving the water use condition information forwarded by the low complexity mobile terminal, the second low complexity mobile terminal or the third low complexity mobile terminal sends a data transmission request message to the water use condition monitoring center; sending a first data transmission permission message or a second data transmission permission message to a second low-complexity mobile terminal or a third low-complexity mobile terminal by a water consumption condition monitoring center; and in response to receiving the first data transmission permission message or the second data transmission permission message, sending, by the second low complexity mobile terminal or the third low complexity mobile terminal, the water usage information forwarded by the low complexity mobile terminal to the water usage monitoring center.

The invention also provides a system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal, which comprises the following steps:

means for monitoring water usage by a low complexity mobile terminal to obtain water usage information;

means for sending, by a low complexity mobile terminal, a mobile terminal capability message to a water usage monitoring center at predetermined time intervals, wherein the mobile terminal capability message is capable of at least indicating whether the mobile terminal is a low complexity mobile terminal or a regular mobile terminal;

a unit for sending a data transmission request message to a water usage monitoring center by a low complexity mobile terminal;

a unit for judging, by the water use condition monitoring center, whether the mobile terminal that sent the data transmission request message is a low complexity mobile terminal or a conventional mobile terminal in response to receiving the data transmission request message;

a unit for transmitting a first data transmission permission message to the mobile terminal by the water use condition monitoring center if it cannot be judged whether the mobile terminal transmitting the data transmission request message is a low complexity mobile terminal or a normal mobile terminal or it is judged that the mobile terminal transmitting the data transmission request message is a low complexity mobile terminal;

means for transmitting a second data transmission permission message to the mobile terminal by the water usage monitoring center if it is determined that the mobile terminal transmitting the data transmission request message is a regular mobile terminal, wherein a size of the first data transmission permission message is smaller than a size of the second data transmission permission message; and

means for transmitting, by the low complexity mobile terminal, the water usage information to the water usage monitoring center in response to receiving the first data transmission permission message.

In a preferred embodiment, the system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises: means for broadcasting, by the water usage monitoring center, a water usage information request message to the mobile terminal, wherein the water usage information request message comprises at least one of a first water usage information request message or a second water usage information request message; wherein, based on the system of low complexity mobile terminal monitoring industrial enterprise water fluctuation condition includes: a unit for broadcasting a first water condition information request message to a mobile terminal by a water condition monitoring center if it cannot be judged whether the mobile terminal transmitting the data transmission request message is a low complexity mobile terminal or a conventional mobile terminal or whether the mobile terminal transmitting the data transmission request message is a low complexity mobile terminal; a unit for broadcasting a second water condition information request message to the mobile terminal by the water use condition monitoring center if it is judged that the mobile terminal transmitting the data transmission request message is a conventional mobile terminal; wherein the size of the first water condition information request message is smaller than the size of the second water condition information request message; and means for sending, by the low complexity mobile terminal, the water usage information to the water usage monitoring center in response to receiving the first water usage information request message.

In a preferred embodiment, the system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises: means for broadcasting, by the low complexity mobile terminal, a first synchronization signal if the low complexity mobile terminal does not receive the first data transmission permission message within a predetermined time, while listening for a second synchronization signal, wherein the second synchronization signal is broadcast by a second low complexity mobile terminal; a unit for sending a forwarding request message to the second low complexity mobile terminal or the third low complexity mobile terminal by the low complexity mobile terminal if a synchronization completion message sent by the second low complexity mobile terminal or the third low complexity mobile terminal is received; means for sending, by the second low complexity mobile terminal or a third low complexity mobile terminal, a forwarding acknowledgement message to the low complexity mobile terminal in response to receiving the forwarding request message; means for transmitting, by the low complexity mobile terminal, water usage information to the second low complexity mobile terminal or a third low complexity mobile terminal in response to receiving the forward acknowledgement message.

In a preferred embodiment, the system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises: means for synchronizing, by the low complexity mobile terminal, with a second low complexity mobile terminal based on a second synchronization signal if the second synchronization signal is heard; means for sending, by the low complexity mobile terminal, a forward request message to a second low complexity mobile terminal in response to completing the synchronization; means for sending, by the second low complexity mobile terminal, a forwarding acknowledgement message to the low complexity mobile terminal in response to receiving the forwarding request message; means for transmitting, by the low complexity mobile terminal, water usage information to a second low complexity mobile terminal in response to receiving the forward acknowledgement message.

In a preferred embodiment, the system for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises: a unit for sending a data transmission request message to a water usage monitoring center by a second low complexity mobile terminal or a third low complexity mobile terminal in response to receiving the water usage information forwarded by the low complexity mobile terminal; means for sending, by the water usage monitoring center, a first data transmission grant message or a second data transmission grant message to a second low complexity mobile terminal or a third low complexity mobile terminal; means for transmitting, by the second low complexity mobile terminal or the third low complexity mobile terminal, the water usage information forwarded by the low complexity mobile terminal to the water usage monitoring center in response to receiving the first data transmission permission message or the second data transmission permission message.

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)

1. A method for monitoring water fluctuation conditions of industrial enterprises based on a low-complexity mobile terminal is characterized by comprising the following steps: the method for monitoring the water fluctuation condition of the industrial enterprise based on the low-complexity mobile terminal comprises the following steps:

monitoring the water consumption condition by a low-complexity mobile terminal to obtain water consumption condition information, wherein the low-complexity mobile terminal is a water monitoring device with a communication function;

the method comprises the steps that a low-complexity mobile terminal periodically sends a mobile terminal capacity message to a water consumption condition monitoring center at preset time intervals, wherein the mobile terminal capacity message can indicate whether the mobile terminal is a low-complexity mobile terminal or a conventional mobile terminal;

sending a data transmission request message to a water consumption condition monitoring center by a low-complexity mobile terminal; in response to receiving the data transmission request message, the water use condition monitoring center judges whether the mobile terminal sending the data transmission request message is a low-complexity mobile terminal or a conventional mobile terminal; if the mobile terminal sending the data transmission request message can not be judged to be a low-complexity mobile terminal or a conventional mobile terminal or the mobile terminal sending the data transmission request message is judged to be a low-complexity mobile terminal, a first data transmission permission message is sent to the mobile terminal by a water consumption condition monitoring center;

if the mobile terminal sending the data transmission request message is judged to be a conventional mobile terminal, sending a second data transmission permission message to the mobile terminal by a water consumption condition monitoring center, wherein the size of the first data transmission permission message is smaller than that of the second data transmission permission message;

transmitting, by the low complexity mobile terminal, the water usage information to a water usage monitoring center in response to receiving the first data transmission permission message,

broadcasting a water usage information request message to a mobile terminal by a water usage monitoring center, wherein the water usage information request message comprises at least one of a first water usage information request message or a second water usage information request message;

if the mobile terminal sending the data transmission request message is a low-complexity mobile terminal or a conventional mobile terminal or the mobile terminal sending the data transmission request message is a low-complexity mobile terminal, the water consumption condition monitoring center broadcasts a first water condition information request message to the mobile terminal;

if the mobile terminal sending the data transmission request message is judged to be a conventional mobile terminal, the water use condition monitoring center broadcasts a second water use condition information request message to the mobile terminal; wherein the first water condition information request message has a smaller size than the second water condition information request message;

sending, by the low complexity mobile terminal to a water usage monitoring center, the water usage information in response to receiving the first water usage information request message,

broadcasting, by a low complexity mobile terminal, a first synchronization signal while listening for a second synchronization signal if the low complexity mobile terminal does not receive the first data transmission grant message within a predetermined time, wherein the second synchronization signal is broadcast by a second low complexity mobile terminal;

if a synchronization completion message sent by a second low complexity mobile terminal or a third low complexity mobile terminal is received, sending a forwarding request message to the second low complexity mobile terminal or the third low complexity mobile terminal by the low complexity mobile terminal;

sending, by the second low complexity mobile terminal or the third low complexity mobile terminal, a forwarding acknowledgement message to the low complexity mobile terminal in response to receiving the forwarding request message;

transmitting, by a low complexity mobile terminal, the water usage information to the second low complexity mobile terminal or the third low complexity mobile terminal in response to receiving the forwarding acknowledgement message,

if the second synchronization signal is monitored, synchronizing with the second low complexity mobile terminal by the low complexity mobile terminal based on the second synchronization signal;

sending, by a low complexity mobile terminal, a forwarding request message to the second low complexity mobile terminal in response to completing synchronization;

sending, by the second low complexity mobile terminal, a forward acknowledgement message to the low complexity mobile terminal in response to receiving the forward request message;

sending, by a low complexity mobile terminal, the water usage information to the second low complexity mobile terminal in response to receiving the forward acknowledgement message,

in response to receiving the water use condition information forwarded by the low complexity mobile terminal, the second low complexity mobile terminal or the third low complexity mobile terminal sends a data transmission request message to the water use condition monitoring center;

sending a first data transmission permission message or a second data transmission permission message to a second low-complexity mobile terminal or a third low-complexity mobile terminal by a water consumption condition monitoring center;

and in response to receiving the first data transmission permission message or the second data transmission permission message, sending, by the second low complexity mobile terminal or the third low complexity mobile terminal, the water usage information forwarded by the low complexity mobile terminal to the water usage monitoring center.

Images