CN111246538B - Laboratory glass instrument manufacturing method and system based on Internet of things - Google Patents

Abstract

The invention discloses a laboratory glass instrument manufacturing method based on the Internet of things, which comprises the following steps: monitoring parameters in the manufacturing process of the laboratory glass instrument by a wireless monitoring control terminal; monitoring, by a wireless monitoring control terminal, a reference signal transmitted by a first local area data receiving device; the wireless monitoring control terminal judges the receiving quality of the reference signal based on the reference signal; the wireless monitoring control terminal sends an access request message to a first local area data receiving device; determining, by the first local data reception device, a first transmission power to be used for transmitting data to the wireless monitoring control terminal based on the second indication; determining, by the first local area data reception apparatus, an uplink resource to be allocated to the wireless monitoring control terminal based on the first indication; sending an access response message to the wireless monitoring control terminal by the first local area data receiving device by using the first transmission power; transmitting, by the wireless monitoring control terminal, a first message to the first local area data reception device on the allocated uplink resource; the temporary identity in the first message is determined by the first local area data receiving means.

Description

Laboratory glass instrument manufacturing method and system based on Internet of things

Technical Field

The invention relates to the technical field of glass instrument manufacturing, in particular to a laboratory glass instrument manufacturing method and system based on the Internet of things.

Background

Instruments made of glass are called glassware. Glass instruments are used in laboratories in large quantities because glass has high chemical stability, thermal stability, good transparency, a certain mechanical strength and good insulating properties. Glass instruments made by using the excellent properties of glass are widely used in various laboratories, such as chemical laboratories, medical inspection laboratories, biological laboratories, scientific research laboratories, and teaching laboratories.

Prior art CN110524118A discloses a system and a method for manufacturing a glass measuring device, the system structure comprises: and the measuring structure is used for forming a determined coordinate space, collecting water level and liquid level position data of the glass gauge in the measuring process in the determined coordinate space and forming corresponding measuring pixel data. The engraving structure is used for forming a related coordinate space, collecting reference data of the glass measuring device in the related coordinate space and forming corresponding reference pixel data, and engraving control data is formed according to the measurement pixel data and the reference pixel data in the engraving process.

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 laboratory glassware manufacturing method and system based on the Internet of things, which can overcome the defects of the prior art.

In order to achieve the purpose, the invention provides a laboratory glassware manufacturing method based on the Internet of things, which is characterized by comprising the following steps of:

monitoring parameters in the manufacturing process of the laboratory glass instrument by a wireless monitoring control terminal;

monitoring, by a wireless monitoring control terminal, a reference signal transmitted by a first local area data receiving device;

in response to monitoring the reference signal transmitted by the first local area data receiving device, the wireless monitoring control terminal judges the receiving quality of the reference signal based on the reference signal;

in response to monitoring a reference signal sent by a first local area data receiving device, sending, by a wireless monitoring control terminal, an access request message to the first local area data receiving device, wherein the access request message includes a first indication and a second indication, the first indication is used for indicating that the wireless monitoring control terminal does not currently perform data exchange with any local area data receiving device, and the second indication is used for indicating the reception quality of the reference signal;

determining, by the first local area data reception device, a first transmission power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

determining, by the first local area data reception apparatus, an uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the uplink resource is available for the wireless monitoring control terminal and other wireless monitoring control terminals;

sending an access response message to the wireless monitoring control terminal by the first local area data receiving device by using the first transmission power, wherein the access response message at least comprises uplink resources allocated to the wireless monitoring control terminal and a temporary identity allocated to the wireless monitoring control terminal;

transmitting, by the wireless monitoring control terminal, a first message to the first local area data receiving device on the allocated uplink resource in response to receiving the access response message, wherein the first message includes at least the allocated temporary identity, the collected part of the parameters in the laboratory glassware manufacturing process, and the data size of the collected remaining parameters in the laboratory glassware manufacturing process;

determining, by the first local area data receiving device, the temporary identity in the first message in response to receiving the first message;

transmitting, by the first local data receiving device, the collected portion of the parameter and the temporary identifier in the laboratory glassware manufacturing process to the glassware manufacturing control center in response to receiving the first message;

in response to receiving the first message, allocating, by the first local data receiving device, a second uplink resource for uplink transmission to the wireless monitoring control terminal corresponding to the temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the second uplink resource is dedicated to the wireless monitoring control terminal.

In a preferred embodiment, the method for manufacturing the laboratory glassware based on the internet of things comprises the following steps:

starting, by the wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

if the wireless monitoring control terminal receives the second uplink resource for uplink transmission before the first timer is overtime, stopping the first timer by the wireless monitoring control terminal and transmitting the collected residual parameters in the laboratory glassware manufacturing process to the first local data receiving device on the second uplink resource for uplink transmission;

in response to receiving the collected remaining parameters of the laboratory glassware manufacturing process, transmitting, by the first local data receiving device, the collected remaining parameters of the laboratory glassware manufacturing process and the temporary identifier to the glassware manufacturing control center;

in response to receiving all parameters of the laboratory glassware manufacturing process, generating, by the glassware manufacturing control center, glassware manufacturing control commands based on the parameters of the laboratory glassware manufacturing process and transmitting the glassware manufacturing control commands and corresponding temporary identifiers to the first local area data receiving device;

in response to receiving the glassware manufacturing control command, the first local data receiving means transmits the glassware manufacturing control command to the wireless monitor control terminal corresponding to the temporary identifier.

In a preferred embodiment, the method for manufacturing the laboratory glassware based on the internet of things comprises the following steps:

if the wireless monitoring control terminal does not receive the second uplink resource for uplink transmission all the time before the first timer is overtime, the wireless monitoring control terminal sends a second access request message to the first local area data receiving device, wherein the second access request message comprises a first indication and a second indication, the first indication is used for indicating that the wireless monitoring control terminal carries out data exchange with the first local area data receiving device currently, and the second indication is used for indicating the receiving quality of the reference signal;

determining, by the first local area data receiving device, a second transmit power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

determining, by the first local area data reception apparatus, a third uplink resource to be allocated to the wireless monitoring and control terminal based on the first indication in response to receiving the access request message, wherein the third uplink resource is dedicated to the wireless monitoring and control terminal, wherein the third uplink resource includes a plurality of resources for uplink transmission by the wireless monitoring and control terminal;

sending an access response message to the wireless monitoring control terminal by the first local area data receiving device by using the second transmitting power, wherein the access response message at least comprises a third uplink resource allocated to the wireless monitoring control terminal and a second temporary identity allocated to the wireless monitoring control terminal;

and in response to receiving the access response message, sending, by the wireless monitoring control terminal, a first message to the first local area data receiving device on the allocated third uplink resource, wherein the first message includes at least the allocated second temporary identity, the collected part of the parameters in the laboratory glassware manufacturing process, and the collected data size of the remaining parameters in the laboratory glassware manufacturing process.

In a preferred embodiment, the method for manufacturing the laboratory glassware based on the internet of things comprises the following steps:

determining, by the first local area data receiving device, the second temporary identity in the first message in response to receiving the first message;

in response to receiving the first message, transmitting, by the first local data reception device, the collected portion of the parameter in the laboratory glassware manufacturing process and the second temporary identifier to the glassware manufacturing control center;

in response to receiving the first message, allocating, by the first local data receiving device, a fourth uplink resource for uplink transmission to the wireless monitoring control terminal corresponding to the second temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the fourth uplink resource is dedicated to the wireless monitoring control terminal.

In a preferred embodiment, the method for manufacturing the laboratory glassware based on the internet of things comprises the following steps:

starting, by the wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

if the wireless monitoring control terminal does not receive the fourth uplink resource for uplink transmission all the time before the first timer is overtime, sending a first message to the first local data receiving device on the third uplink resource by the wireless monitoring control terminal, wherein the first message at least comprises the allocated second temporary identity, the collected part of parameters in the laboratory glass instrument manufacturing process and the collected data size of the residual parameters in the laboratory glass instrument manufacturing process;

in response to receiving the collected remaining parameters of the laboratory glassware manufacturing process, transmitting, by the first local data receiving device, the collected remaining parameters of the laboratory glassware manufacturing process and the second temporary identifier to the glassware manufacturing control center;

in response to receiving all of the parameters of the laboratory glassware manufacturing process, generating, by the glassware manufacturing control center, glassware manufacturing control commands based on the parameters of the laboratory glassware manufacturing process and transmitting the glassware manufacturing control commands and corresponding second temporary identifiers to the first local data receiving device;

in response to receiving the glassware manufacturing control command, the first local data receiving device transmits the glassware manufacturing control command to the wireless monitor control terminal corresponding to the second temporary identifier.

The invention provides a laboratory glass instrument manufacturing system based on the Internet of things, which is characterized by comprising the following components in parts by weight:

a unit for monitoring parameters in the manufacturing process of the laboratory glassware by a wireless monitoring control terminal;

a unit for monitoring, by a wireless monitoring control terminal, a reference signal transmitted by a first local area data receiving apparatus;

a unit for judging, by the wireless monitoring control terminal, reception quality of a reference signal based on the reference signal in response to monitoring of the reference signal transmitted by the first local area data reception device;

the wireless monitoring control terminal comprises a unit for responding to the monitoring of the reference signal sent by the first local area data receiving device, and sending an access request message to the first local area data receiving device by the wireless monitoring control terminal, wherein the access request message comprises a first indication and a second indication, the first indication is used for indicating that the wireless monitoring control terminal does not exchange data with any local area data receiving device currently, and the second indication is used for indicating the receiving quality of the reference signal;

means for determining, by the first local area data reception device, a first transmission power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

means for determining, by the first local area data reception apparatus, an uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the uplink resource is available for the wireless monitoring control terminal and other wireless monitoring control terminals;

the wireless monitoring control terminal comprises a unit for sending an access response message to the wireless monitoring control terminal by the first local area data receiving device by using first transmission power, wherein the access response message at least comprises uplink resources allocated to the wireless monitoring control terminal and a temporary identity allocated to the wireless monitoring control terminal;

means for transmitting, by the wireless monitoring control terminal, a first message to the first local area data receiving device on the allocated uplink resource in response to receiving the access response message, wherein the first message includes at least the allocated temporary identity, the collected data size of a portion of the parameters in the laboratory glassware manufacturing process, and the collected data size of the remaining parameters in the laboratory glassware manufacturing process;

means for determining, by the first local area data reception apparatus, in response to receiving the first message, a temporary identity in the first message;

means for transmitting, by the first local data receiving device, the collected portion of the parameters in the laboratory glassware manufacturing process and the temporary identifier to the glassware manufacturing control center in response to receiving the first message;

means for assigning, by the first local data reception device, a second uplink resource for uplink transmission to the wireless monitoring and control terminal corresponding to the temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the second uplink resource is dedicated for the wireless monitoring and control terminal.

In a preferred embodiment, an internet of things based laboratory glassware manufacturing system includes:

means for starting, by the wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

means for stopping, by the wireless monitoring control terminal, the first timer and transmitting the collected remaining parameters of the laboratory glassware manufacturing process to the first local data receiving device on the second uplink resource for uplink transmission if the second uplink resource for uplink transmission is received by the wireless monitoring control terminal before the first timer times out;

means for transmitting, by the first local data receiving device, the collected residual parameters in the laboratory glassware manufacturing process and the temporary identifier to the glassware manufacturing control center in response to receiving the collected residual parameters in the laboratory glassware manufacturing process;

means for generating, by the glassware manufacturing control center, glassware manufacturing control commands based on the parameters in the laboratory glassware manufacturing process in response to receiving all of the parameters in the laboratory glassware manufacturing process, and transmitting the glassware manufacturing control commands and corresponding temporary identifiers to the first local data receiving device;

means for transmitting, by the first local data receiving device, the glassware manufacturing control command to the wireless monitor control terminal corresponding to the temporary identifier in response to receiving the glassware manufacturing control command.

In a preferred embodiment, an internet of things based laboratory glassware manufacturing system includes:

a unit configured to, if the wireless monitoring control terminal does not receive the second uplink resource for uplink transmission all the time before the first timer expires, send, by the wireless monitoring control terminal, a second access request message to the first local area data receiving apparatus, where the second access request message includes a first indication and a second indication, the first indication is used to indicate that the wireless monitoring control terminal is currently performing data exchange with the first local area data receiving apparatus, and the second indication is used to indicate a reception quality of the reference signal;

means for determining, by the first local area data reception device, a second transmit power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

means for determining, by the first local area data reception apparatus, a third uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the third uplink resource is dedicated to the wireless monitoring control terminal, wherein the third uplink resource comprises a plurality of resources for uplink transmission by the wireless monitoring control terminal;

a unit, configured to send, by the first local area data receiving apparatus, an access response message to the wireless monitoring and control terminal by using the second transmission power, where the access response message at least includes a third uplink resource allocated to the wireless monitoring and control terminal and a second temporary identity allocated to the wireless monitoring and control terminal;

means for transmitting, by the wireless monitoring control terminal, a first message to the first local area data reception device on the allocated third uplink resource in response to receiving the access response message, wherein the first message includes at least the allocated second temporary identity, the collected part of the parameters in the laboratory glassware manufacturing process, and the data size of the collected remaining parameters in the laboratory glassware manufacturing process.

In a preferred embodiment, an internet of things based laboratory glassware manufacturing system includes:

means for determining, by the first local area data reception apparatus, in response to receiving the first message, a second temporary identity in the first message;

means for transmitting, by the first local data receiving device, the collected portion of the parameter in the laboratory glassware manufacturing process and the second temporary identifier to the glassware manufacturing control center in response to receiving the first message;

means for assigning, by the first local data reception device, a fourth uplink resource for uplink transmission to the wireless monitoring and control terminal corresponding to the second temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the fourth uplink resource is dedicated for the wireless monitoring and control terminal.

In a preferred embodiment, an internet of things based laboratory glassware manufacturing system includes:

means for starting, by the wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

means for sending, by the wireless monitoring control terminal, a first message to the first local data receiving device on the third uplink resource if the fourth uplink resource for uplink transmission is not received by the wireless monitoring control terminal until the first timer expires, wherein the first message includes at least the assigned second temporary identity, the collected data size of the portion of the parameters in the laboratory glassware manufacturing process, and the collected data size of the remaining parameters in the laboratory glassware manufacturing process;

means for transmitting, by the first local data receiving device, the collected residual parameters in the laboratory glassware manufacturing process and the second temporary identifier to the glassware manufacturing control center in response to receiving the collected residual parameters in the laboratory glassware manufacturing process;

means for generating, by the glassware manufacturing control center, glassware manufacturing control commands based on the parameters in the laboratory glassware manufacturing process in response to receiving all of the parameters in the laboratory glassware manufacturing process and transmitting the glassware manufacturing control commands and corresponding second temporary identifiers to the first local data receiving device;

means for transmitting, by the first local data receiving device, the glassware manufacturing control command to the wireless monitor control terminal corresponding to the second temporary identifier in response to receiving the glassware manufacturing control command.

Compared with the prior art, the invention has the advantages that the traditional glass manufacturing is a family of small workshop type small handicraft industry, and the small workshops for manually manufacturing the colored glassware are arranged in a plurality of places in Italy until now. However, with the development of society and science and technology, the glass manufacturing in the form of small handicraft industry cannot meet the existing requirements in the aspects of yield, quality and the like, and the glass manufacturing is a large industrial production mode at present. With the advancement of the state to the industrial internet of things, in order to reduce the glass manufacturing cost and improve the glass manufacturing quality, the current glass manufacturing plants are in urgent need of upgrading and transforming the internet of things and the wireless communication technology. The method and the system can meet the requirements of the current industrial Internet of things, ensure the realization of industrial interconnection, and simultaneously improve the control efficiency and the control precision of a glass manufacturing process.

Drawings

FIG. 1 is a flow diagram of a method according to an embodiment of the invention.

Fig. 2 is a schematic diagram of a system architecture according to an embodiment of the present 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 of the present invention comprises the steps of:

step 101: monitoring parameters in the manufacturing process of the laboratory glass instrument by a wireless monitoring control terminal (as shown in fig. 2, the wireless monitoring control terminal can be an unmanned aerial vehicle with a wireless communication function, and the communication mode between the unmanned aerial vehicle and the glass instrument manufacturing equipment can be Bluetooth communication for example);

step 102: monitoring, by a wireless monitoring control terminal, a reference signal transmitted by a first local area data receiving device (the first local area data receiving device has a function of receiving and transmitting data, and the function is similar to a base station or similar to a wireless router, for example, and in order not to cause misunderstanding, the first local area data receiving device is shown as an object similar to a signal tower in the example of fig. 2);

step 103: in response to monitoring the reference signal transmitted by the first local area data receiving device, the wireless monitoring control terminal judges the receiving quality of the reference signal based on the reference signal;

step 104: in response to monitoring a reference signal sent by a first local area data receiving device, sending, by a wireless monitoring control terminal, an access request message to the first local area data receiving device, wherein the access request message includes a first indication and a second indication, the first indication is used for indicating that the wireless monitoring control terminal does not currently perform data exchange with any local area data receiving device, and the second indication is used for indicating the reception quality of the reference signal;

step 105: determining, by the first local area data reception device, a first transmission power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

step 106: determining, by the first local area data reception apparatus, an uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the uplink resource is available for the wireless monitoring control terminal and other wireless monitoring control terminals;

step 107: sending an access response message to the wireless monitoring control terminal by the first local area data receiving device by using the first transmission power, wherein the access response message at least comprises uplink resources allocated to the wireless monitoring control terminal and a temporary identity allocated to the wireless monitoring control terminal;

step 108: transmitting, by the wireless monitoring control terminal, a first message to the first local area data receiving device on the allocated uplink resource in response to receiving the access response message, wherein the first message includes at least the allocated temporary identity, the collected part of the parameters in the laboratory glassware manufacturing process, and the data size of the collected remaining parameters in the laboratory glassware manufacturing process;

step 109: determining, by the first local area data receiving device, the temporary identity in the first message in response to receiving the first message;

step 110: in response to receiving the first message, transmitting, by the first local data receiving device, the collected portion of the parameters in the laboratory glassware manufacturing process and the temporary identifier to a glassware manufacturing control center (the glassware manufacturing control center is, for example, a computer with specialized control software);

step 111: in response to receiving the first message, allocating, by the first local data receiving device, a second uplink resource for uplink transmission to the wireless monitoring control terminal corresponding to the temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the second uplink resource is dedicated to the wireless monitoring control terminal. It should be understood that, in a manufacturing plant, a plurality of local data receiving devices may be installed, and the number of the wireless monitoring control terminals should be greater than 1. If the wireless monitoring control terminal and the second wireless monitoring control terminal are both in communication with the first local area data receiving device for the first time and almost at the same time, the first local area data receiving device may allocate the same uplink transmission resource (but allocate different temporary identifiers) to the wireless monitoring control terminal and the second wireless monitoring control terminal (according to the condition of the wireless resource, if the wireless resource is very rich, then different terminals may be allocated with different resources, of course), so that the two wireless monitoring control terminals will compete when sending the first message, and the competition process may be by adjusting the sending power. At the first local area data receiving device, due to the existence of contention, the first local area data receiving device may only receive the first message of one of the wireless monitoring control terminal or the second wireless monitoring control terminal, which is the case that the wireless monitoring control terminal successfully contends and sends the first message, as described in detail in this application. Before the first timer expires, the wireless monitoring control terminal does not receive the second uplink resource for uplink transmission all the time, which may be caused by a contention failure condition of the wireless monitoring control terminal, for example.

In a preferred embodiment, the method for manufacturing the laboratory glassware based on the internet of things comprises the following steps:

starting, by the wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

if the wireless monitoring control terminal receives the second uplink resource for uplink transmission before the first timer is overtime, stopping the first timer by the wireless monitoring control terminal and transmitting the collected residual parameters in the laboratory glassware manufacturing process to the first local data receiving device on the second uplink resource for uplink transmission;

in response to receiving the collected remaining parameters of the laboratory glassware manufacturing process, transmitting, by the first local data receiving device, the collected remaining parameters of the laboratory glassware manufacturing process and the temporary identifier to the glassware manufacturing control center;

in response to receiving all parameters of the laboratory glassware manufacturing process, generating, by the glassware manufacturing control center, glassware manufacturing control commands based on the parameters of the laboratory glassware manufacturing process and transmitting the glassware manufacturing control commands and corresponding temporary identifiers to the first local area data receiving device;

in response to receiving the glassware manufacturing control command, the first local data receiving means transmits the glassware manufacturing control command to the wireless monitor control terminal corresponding to the temporary identifier.

In a preferred embodiment, the method for manufacturing the laboratory glassware based on the internet of things comprises the following steps:

if the wireless monitoring control terminal does not receive the second uplink resource for uplink transmission all the time before the first timer is overtime, the wireless monitoring control terminal sends a second access request message to the first local area data receiving device, wherein the second access request message comprises a first indication and a second indication, the first indication is used for indicating that the wireless monitoring control terminal carries out data exchange with the first local area data receiving device currently, and the second indication is used for indicating the receiving quality of the reference signal;

determining, by the first local area data receiving device, a second transmit power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

determining, by the first local area data reception apparatus, a third uplink resource to be allocated to the wireless monitoring and control terminal based on the first indication in response to receiving the access request message, wherein the third uplink resource is dedicated to the wireless monitoring and control terminal, wherein the third uplink resource includes a plurality of resources for uplink transmission by the wireless monitoring and control terminal; the fact that the wireless monitoring control terminal comprises a plurality of resources for uplink transmission refers to the fact that the first local area data receiving device allocates frequency resources on a plurality of frames, sub-frames and even time slots to the wireless monitoring control terminal at one time, and if the wireless monitoring control terminal does not transmit successfully at the first time (for example, due to the problem of excessive interference and the like), the wireless monitoring control terminal can retransmit the frequency resources at the second time point.

Sending an access response message to the wireless monitoring control terminal by the first local area data receiving device by using the second transmitting power, wherein the access response message at least comprises a third uplink resource allocated to the wireless monitoring control terminal and a second temporary identity allocated to the wireless monitoring control terminal;

and in response to receiving the access response message, sending, by the wireless monitoring control terminal, a first message to the first local area data receiving device on the allocated third uplink resource, wherein the first message includes at least the allocated second temporary identity, the collected part of the parameters in the laboratory glassware manufacturing process, and the collected data size of the remaining parameters in the laboratory glassware manufacturing process.

In a preferred embodiment, the method for manufacturing the laboratory glassware based on the internet of things comprises the following steps:

determining, by the first local area data receiving device, the second temporary identity in the first message in response to receiving the first message;

in response to receiving the first message, transmitting, by the first local data reception device, the collected portion of the parameter in the laboratory glassware manufacturing process and the second temporary identifier to the glassware manufacturing control center;

in response to receiving the first message, allocating, by the first local data receiving device, a fourth uplink resource for uplink transmission to the wireless monitoring control terminal corresponding to the second temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the fourth uplink resource is dedicated to the wireless monitoring control terminal.

In a preferred embodiment, the method for manufacturing the laboratory glassware based on the internet of things comprises the following steps:

starting, by the wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

if the wireless monitoring control terminal does not receive the fourth uplink resource for uplink transmission all the time before the first timer is overtime, sending a first message to the first local data receiving device on the third uplink resource by the wireless monitoring control terminal, wherein the first message at least comprises the allocated second temporary identity, the collected part of parameters in the laboratory glass instrument manufacturing process and the collected data size of the residual parameters in the laboratory glass instrument manufacturing process;

in response to receiving the collected remaining parameters of the laboratory glassware manufacturing process, transmitting, by the first local data receiving device, the collected remaining parameters of the laboratory glassware manufacturing process and the second temporary identifier to the glassware manufacturing control center;

in response to receiving all of the parameters of the laboratory glassware manufacturing process, generating, by the glassware manufacturing control center, glassware manufacturing control commands based on the parameters of the laboratory glassware manufacturing process and transmitting the glassware manufacturing control commands and corresponding second temporary identifiers to the first local data receiving device;

in response to receiving the glassware manufacturing control command, the first local data receiving device transmits the glassware manufacturing control command to the wireless monitor control terminal corresponding to the second temporary identifier.

The invention provides a laboratory glass instrument manufacturing system based on the Internet of things, which is characterized by comprising the following components in parts by weight:

a unit for monitoring parameters in the manufacturing process of the laboratory glassware by a wireless monitoring control terminal;

a unit for monitoring, by a wireless monitoring control terminal, a reference signal transmitted by a first local area data receiving apparatus;

a unit for judging, by the wireless monitoring control terminal, reception quality of a reference signal based on the reference signal in response to monitoring of the reference signal transmitted by the first local area data reception device;

the wireless monitoring control terminal comprises a unit for responding to the monitoring of the reference signal sent by the first local area data receiving device, and sending an access request message to the first local area data receiving device by the wireless monitoring control terminal, wherein the access request message comprises a first indication and a second indication, the first indication is used for indicating that the wireless monitoring control terminal does not exchange data with any local area data receiving device currently, and the second indication is used for indicating the receiving quality of the reference signal;

means for determining, by the first local area data reception device, a first transmission power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

means for determining, by the first local area data reception apparatus, an uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the uplink resource is available for the wireless monitoring control terminal and other wireless monitoring control terminals;

the wireless monitoring control terminal comprises a unit for sending an access response message to the wireless monitoring control terminal by the first local area data receiving device by using first transmission power, wherein the access response message at least comprises uplink resources allocated to the wireless monitoring control terminal and a temporary identity allocated to the wireless monitoring control terminal;

means for transmitting, by the wireless monitoring control terminal, a first message to the first local area data receiving device on the allocated uplink resource in response to receiving the access response message, wherein the first message includes at least the allocated temporary identity, the collected data size of a portion of the parameters in the laboratory glassware manufacturing process, and the collected data size of the remaining parameters in the laboratory glassware manufacturing process;

means for determining, by the first local area data reception apparatus, in response to receiving the first message, a temporary identity in the first message;

means for transmitting, by the first local data receiving device, the collected portion of the parameters in the laboratory glassware manufacturing process and the temporary identifier to the glassware manufacturing control center in response to receiving the first message;

means for assigning, by the first local data reception device, a second uplink resource for uplink transmission to the wireless monitoring and control terminal corresponding to the temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the second uplink resource is dedicated for the wireless monitoring and control terminal.

In a preferred embodiment, an internet of things based laboratory glassware manufacturing system includes:

means for starting, by the wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

means for stopping, by the wireless monitoring control terminal, the first timer and transmitting the collected remaining parameters of the laboratory glassware manufacturing process to the first local data receiving device on the second uplink resource for uplink transmission if the second uplink resource for uplink transmission is received by the wireless monitoring control terminal before the first timer times out;

means for transmitting, by the first local data receiving device, the collected residual parameters in the laboratory glassware manufacturing process and the temporary identifier to the glassware manufacturing control center in response to receiving the collected residual parameters in the laboratory glassware manufacturing process;

means for generating, by the glassware manufacturing control center, glassware manufacturing control commands based on the parameters in the laboratory glassware manufacturing process in response to receiving all of the parameters in the laboratory glassware manufacturing process, and transmitting the glassware manufacturing control commands and corresponding temporary identifiers to the first local data receiving device;

means for transmitting, by the first local data receiving device, the glassware manufacturing control command to the wireless monitor control terminal corresponding to the temporary identifier in response to receiving the glassware manufacturing control command.

In a preferred embodiment, an internet of things based laboratory glassware manufacturing system includes:

a unit configured to, if the wireless monitoring control terminal does not receive the second uplink resource for uplink transmission all the time before the first timer expires, send, by the wireless monitoring control terminal, a second access request message to the first local area data receiving apparatus, where the second access request message includes a first indication and a second indication, the first indication is used to indicate that the wireless monitoring control terminal is currently performing data exchange with the first local area data receiving apparatus, and the second indication is used to indicate a reception quality of the reference signal;

means for determining, by the first local area data reception device, a second transmit power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

means for determining, by the first local area data reception apparatus, a third uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the third uplink resource is dedicated to the wireless monitoring control terminal, wherein the third uplink resource comprises a plurality of resources for uplink transmission by the wireless monitoring control terminal;

a unit, configured to send, by the first local area data receiving apparatus, an access response message to the wireless monitoring and control terminal by using the second transmission power, where the access response message at least includes a third uplink resource allocated to the wireless monitoring and control terminal and a second temporary identity allocated to the wireless monitoring and control terminal;

means for transmitting, by the wireless monitoring control terminal, a first message to the first local area data reception device on the allocated third uplink resource in response to receiving the access response message, wherein the first message includes at least the allocated second temporary identity, the collected part of the parameters in the laboratory glassware manufacturing process, and the data size of the collected remaining parameters in the laboratory glassware manufacturing process.

In a preferred embodiment, an internet of things based laboratory glassware manufacturing system includes:

means for determining, by the first local area data reception apparatus, in response to receiving the first message, a second temporary identity in the first message;

means for transmitting, by the first local data receiving device, the collected portion of the parameter in the laboratory glassware manufacturing process and the second temporary identifier to the glassware manufacturing control center in response to receiving the first message;

means for assigning, by the first local data reception device, a fourth uplink resource for uplink transmission to the wireless monitoring and control terminal corresponding to the second temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the fourth uplink resource is dedicated for the wireless monitoring and control terminal.

In a preferred embodiment, an internet of things based laboratory glassware manufacturing system includes:

means for starting, by the wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

means for sending, by the wireless monitoring control terminal, a first message to the first local data receiving device on the third uplink resource if the fourth uplink resource for uplink transmission is not received by the wireless monitoring control terminal until the first timer expires, wherein the first message includes at least the assigned second temporary identity, the collected data size of the portion of the parameters in the laboratory glassware manufacturing process, and the collected data size of the remaining parameters in the laboratory glassware manufacturing process;

means for transmitting, by the first local data receiving device, the collected residual parameters in the laboratory glassware manufacturing process and the second temporary identifier to the glassware manufacturing control center in response to receiving the collected residual parameters in the laboratory glassware manufacturing process;

means for generating, by the glassware manufacturing control center, glassware manufacturing control commands based on the parameters in the laboratory glassware manufacturing process in response to receiving all of the parameters in the laboratory glassware manufacturing process and transmitting the glassware manufacturing control commands and corresponding second temporary identifiers to the first local data receiving device;

means for transmitting, by the first local data receiving device, the glassware manufacturing control command to the wireless monitor control terminal corresponding to the second temporary identifier in response to receiving the glassware manufacturing control command.

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 (2)

1. The manufacturing method of the laboratory glassware based on the Internet of things is characterized by comprising the following steps of:

monitoring parameters in the manufacturing process of the laboratory glass instrument by a wireless monitoring control terminal; the wireless monitoring control terminal is an unmanned aerial vehicle with a wireless communication function;

monitoring, by a wireless monitoring control terminal, a reference signal transmitted by a first local area data receiving device;

in response to monitoring a reference signal transmitted by a first local area data receiving device, judging, by a wireless monitoring control terminal, the reception quality of the reference signal based on the reference signal;

in response to monitoring a reference signal sent by a first local area data receiving device, sending, by a wireless monitoring control terminal, an access request message to the first local area data receiving device, where the access request message includes a first indication and a second indication, where the first indication is used to indicate that the wireless monitoring control terminal does not currently perform data exchange with any local area data receiving device, and the second indication is used to indicate a reception quality of the reference signal;

determining, by a first local area data reception device, a first transmission power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

determining, by a first local area data reception apparatus, an uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the uplink resource is available to the wireless monitoring control terminal and other wireless monitoring control terminals;

sending, by a first local area data receiving apparatus, an access response message to the wireless monitoring control terminal by using the first transmission power, where the access response message includes at least an uplink resource allocated to the wireless monitoring control terminal and a temporary identity allocated to the wireless monitoring control terminal;

transmitting, by a wireless monitoring control terminal, a first message to the first local area data receiving device on the allocated uplink resource in response to receiving the access response message, wherein the first message includes at least the allocated temporary identity, the collected part of the parameters in the laboratory glassware manufacturing process, and the data size of the collected remaining parameters in the laboratory glassware manufacturing process;

determining, by a first local area data receiving apparatus, the temporary identity in the first message in response to receiving the first message;

transmitting, by a first local data receiving device, the collected portion of the parameter in the laboratory glassware manufacturing process and the temporary identity to a glassware manufacturing control center in response to receiving the first message;

in response to receiving the first message, allocating, by a first local data reception device, a second uplink resource for uplink transmission to the wireless monitoring control terminal corresponding to the temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the second uplink resource is dedicated to the wireless monitoring control terminal,

starting, by a wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

stopping, by the wireless monitoring control terminal, the first timer and transmitting the collected remaining parameters of the laboratory glassware manufacturing process to the first local data receiving device on the second uplink resource for uplink transmission if the second uplink resource for uplink transmission is received by the wireless monitoring control terminal before the first timer times out;

in response to receiving the collected remaining parameters of the laboratory glassware manufacturing process, transmitting, by the first local data receiving device, the collected remaining parameters of the laboratory glassware manufacturing process and the temporary identification to a glassware manufacturing control center;

in response to receiving all parameters in the laboratory glassware manufacturing process, generating, by a glassware manufacturing control center, glassware manufacturing control commands based on the parameters in the laboratory glassware manufacturing process, and sending the glassware manufacturing control commands and corresponding temporary identifications to the first local data receiving device;

in response to receiving the glassware manufacturing control command, the first local data receiving device sends the glassware manufacturing control command to the wireless monitoring control terminal corresponding to the temporary identity mark,

if the wireless monitoring control terminal does not receive the second uplink resource for uplink transmission all the time before the first timer is overtime, sending a second access request message to the first local area data receiving device by the wireless monitoring control terminal, wherein the second access request message comprises a first indication and a second indication, the first indication is used for indicating that the wireless monitoring control terminal carries out data exchange with the first local area data receiving device currently, and the second indication is used for indicating the receiving quality of the reference signal;

determining, by the first local area data receiving device, a second transmit power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

determining, by a first local area data reception apparatus, a third uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the third uplink resource is dedicated to the wireless monitoring control terminal, wherein the third uplink resource comprises a plurality of resources for uplink transmission by the wireless monitoring control terminal;

sending, by a first local area data receiving apparatus, an access response message to the wireless monitoring control terminal by using the second transmission power, where the access response message includes at least a third uplink resource allocated to the wireless monitoring control terminal and a second temporary identity allocated to the wireless monitoring control terminal;

transmitting, by a wireless monitoring control terminal, a first message to the first local area data reception apparatus on the allocated third uplink resource in response to receiving the access response message, wherein the first message includes at least the allocated second temporary identity, the collected part of the parameters in the laboratory glassware manufacturing process, and the data size of the collected remaining parameters in the laboratory glassware manufacturing process,

determining, by a first local area data receiving apparatus, the second temporary identity in the first message in response to receiving the first message;

transmitting, by a first local data receiving device, the collected portion of the parameter in the laboratory glassware manufacturing process and the second temporary identity to a glassware manufacturing control center in response to receiving the first message;

in response to receiving the first message, allocating, by a first local data reception device, fourth uplink resources for uplink transmission to a wireless monitoring control terminal corresponding to the second temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the fourth uplink resources are dedicated to the wireless monitoring control terminal,

starting, by a wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

if the fourth uplink resource for uplink transmission is not received by the wireless monitoring control terminal all the time before the first timer is overtime, sending a first message to the first local data receiving device on the third uplink resource by the wireless monitoring control terminal, wherein the first message at least comprises the second temporary identity assigned, the collected part of parameters in the laboratory glassware manufacturing process and the collected data size of the residual parameters in the laboratory glassware manufacturing process;

in response to receiving the collected remaining parameters of the laboratory glassware manufacturing process, transmitting, by the first local data receiving device, the collected remaining parameters of the laboratory glassware manufacturing process and the second temporary identification to a glassware manufacturing control center;

in response to receiving all parameters in the laboratory glassware manufacturing process, generating, by a glassware manufacturing control center, glassware manufacturing control commands based on the parameters in the laboratory glassware manufacturing process, and sending the glassware manufacturing control commands and corresponding second temporary identifications to the first local data receiving device;

and responding to the received glassware manufacturing control command, and sending the glassware manufacturing control command to a wireless monitoring control terminal corresponding to the second temporary identity through a first local data receiving device.

2. An internet of things based laboratory glassware manufacturing system, which includes:

a unit for monitoring parameters in the manufacturing process of the laboratory glassware by a wireless monitoring control terminal; the wireless monitoring control terminal is an unmanned aerial vehicle with a wireless communication function;

a unit for monitoring, by a wireless monitoring control terminal, a reference signal transmitted by a first local area data receiving apparatus;

the wireless monitoring control terminal comprises a unit for responding to the monitoring of the reference signal sent by the first local area data receiving device, and judging the receiving quality of the reference signal based on the reference signal by the wireless monitoring control terminal;

the wireless monitoring control terminal comprises a unit for responding to monitoring a reference signal sent by a first local area data receiving device, and sending an access request message to the first local area data receiving device by the wireless monitoring control terminal, wherein the access request message comprises a first indication and a second indication, the first indication is used for indicating that the wireless monitoring control terminal does not exchange data with any local area data receiving device currently, and the second indication is used for indicating the receiving quality of the reference signal;

means for determining, by a first local area data reception device, a first transmit power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

means for determining, by a first local area data reception device, an uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the uplink resource is available to the wireless monitoring control terminal and other wireless monitoring control terminals;

means for transmitting, by a first local area data receiving apparatus, an access response message to the wireless monitoring control terminal by using the first transmission power, where the access response message includes at least an uplink resource allocated to the wireless monitoring control terminal and a temporary identity allocated to the wireless monitoring control terminal;

means for transmitting, by a wireless monitoring control terminal, a first message to the first local area data reception device on the allocated uplink resources in response to receiving the access response message, wherein the first message includes at least the allocated temporary identity, the collected part of the parameters in the laboratory glassware manufacturing process, and the data size of the collected remaining parameters in the laboratory glassware manufacturing process;

means for determining, by a first local area data reception apparatus, the temporary identity in the first message in response to receiving the first message;

means for transmitting, by a first local data receiving device, the collected portion of the parameter in the laboratory glassware manufacturing process and the temporary identity to a glassware manufacturing control center in response to receiving the first message;

means for assigning, by a first local data reception device, in response to receiving the first message, a second uplink resource for uplink transmission to a wireless monitoring control terminal corresponding to the temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the second uplink resource is dedicated to the wireless monitoring control terminal,

means for starting, by a wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

means for stopping, by the wireless monitoring control terminal, the first timer and transmitting the collected remaining parameters of the laboratory glassware manufacturing process to the first local data receiving device on the second uplink resource for uplink transmission if the second uplink resource for uplink transmission is received by the wireless monitoring control terminal before the first timer times out;

means for transmitting, by the first local data receiving device, the collected residual parameters in the laboratory glassware manufacturing process and the temporary identity to a glassware manufacturing control center in response to receiving the collected residual parameters in the laboratory glassware manufacturing process;

means for generating, by a glassware manufacturing control center, glassware manufacturing control commands based on parameters in a laboratory glassware manufacturing process in response to receiving all of the parameters in the laboratory glassware manufacturing process, and sending the glassware manufacturing control commands and corresponding temporary identifications to the first local data receiving device;

means for transmitting, by a first local data receiving device, the glassware manufacturing control command to a wireless monitor control terminal corresponding to the temporary identity in response to receiving the glassware manufacturing control command,

means for sending, by the wireless monitoring control terminal, a second access request message to the first local area data receiving apparatus if the second uplink resource for uplink transmission is not received by the wireless monitoring control terminal all the time before the first timer expires, where the second access request message includes a first indication and a second indication, where the first indication is used to indicate that the wireless monitoring control terminal is currently exchanging data with the first local area data receiving apparatus, and the second indication is used to indicate a reception quality of the reference signal;

means for determining, by the first local area data reception apparatus, a second transmit power to be used for transmitting data to the wireless monitoring control terminal based on the second indication in response to receiving the access request message;

means for determining, by a first local area data reception device, a third uplink resource to be allocated to the wireless monitoring control terminal based on the first indication in response to receiving the access request message, wherein the third uplink resource is dedicated to the wireless monitoring control terminal, wherein the third uplink resource comprises a plurality of resources for uplink transmission by the wireless monitoring control terminal;

means for transmitting, by a first local area data receiving apparatus, an access response message to the wireless monitoring control terminal by using the second transmission power, wherein the access response message includes at least a third uplink resource allocated to the wireless monitoring control terminal and a second temporary identity allocated to the wireless monitoring control terminal;

means for transmitting, by a wireless monitoring control terminal, a first message to the first local area data reception device on the allocated third uplink resource in response to receiving the access response message, wherein the first message includes at least the allocated second temporary identity, the collected data size of a portion of the parameters in the laboratory glassware manufacturing process, and the collected data size of the remaining parameters in the laboratory glassware manufacturing process,

means for determining, by a first local area data reception apparatus, the second temporary identity in the first message in response to receiving the first message;

means for transmitting, by a first local data receiving device, the collected portion of the parameter in the laboratory glassware manufacturing process and the second temporary identity to a glassware manufacturing control center in response to receiving the first message;

means for assigning, by a first local data reception device, a fourth uplink resource for uplink transmission to a wireless monitoring control terminal corresponding to the second temporary identity based on the collected data size of the remaining parameters in the laboratory glassware manufacturing process, wherein the fourth uplink resource is dedicated to the wireless monitoring control terminal,

means for starting, by a wireless monitoring control terminal, a first timer in response to transmitting a first message to the first local area data reception apparatus on the allocated uplink resource;

means for sending, by the wireless monitoring control terminal, a first message to the first local data reception device on the third uplink resource if the fourth uplink resource for uplink transmission is not received by the wireless monitoring control terminal until the first timer expires, wherein the first message includes at least the second temporary identity assigned, the collected part of the parameters in the laboratory glassware manufacturing process, and the collected data size of the remaining parameters in the laboratory glassware manufacturing process;

means for transmitting, by the first local data receiving device, the collected residual parameters in the laboratory glassware manufacturing process and the second temporary identification to a glassware manufacturing control center in response to receiving the collected residual parameters in the laboratory glassware manufacturing process;

means for generating, by a glassware manufacturing control center, glassware manufacturing control commands based on parameters in a laboratory glassware manufacturing process in response to receiving all of the parameters in the laboratory glassware manufacturing process, and sending the glassware manufacturing control commands and corresponding second temporary identifications to the first local data receiving device;

and a unit for responding to the received glassware manufacturing control command, and sending the glassware manufacturing control command to the wireless monitoring control terminal corresponding to the second temporary identity through the first local area data receiving device.

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