CN112511638B - Remote control method and system for processing organic solid waste based on Internet of things - Google Patents

Abstract

The invention discloses a remote control method and a remote control system for treating organic solid wastes based on the Internet of things, wherein the method comprises the following steps: establishing communication connection between a mobile terminal and a base station; monitoring, by the mobile terminal, a transmit beam control configuration transmitted by the base station in response to establishing a communication connection with the base station; in response to monitoring the transmission beam control configuration, the mobile terminal judges the control mode of the transmission beam of the mobile terminal; if the control mode of the transmitting wave beam of the mobile terminal is judged to be the first wave beam control mode, the mobile terminal uses the first transmitting wave beam and the first transmitting power to send a first reference signal to the base station; in response to monitoring the first reference signal, determining, by the base station, a first signal quality of the first reference signal; if the first signal quality of the first reference signal is determined to be above the signal quality threshold, transmitting, by the base station, a beam determination instruction to the mobile terminal to inform the mobile terminal to transmit data to the base station using the first transmit beam and the first transmit power.

Description

Remote control method and system for processing organic solid waste based on Internet of things

Technical Field

The invention relates to the technical field of waste treatment, in particular to a remote control method and a remote control system for treating organic solid waste based on the Internet of things.

Background

According to morphological classification, organic wastes mainly include organic solid wastes, organic waste water, and organic waste gases.

The prior art CN104071956B discloses a pretreatment method for continuous flow of sludge or organic solid waste, which comprises the following steps: continuously introducing the sludge or the organic solid waste with the water content of 85-80% into a preheating slurrying tank, and preheating and slurrying the sludge or the organic solid waste through waste heat steam; continuously introducing the preheated and pulped sludge or organic solid waste into a hot steam reaction tank; and pressing the sludge or the organic solid waste in the hot steam reaction tank into a plurality of heat-preserving tanks in a serial state through pressure difference, and then guiding the heat-preserved sludge or the organic solid waste into a pressure-relief flash tank for pressure-relief flash treatment.

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 remote control method and a remote control system for treating organic solid wastes based on the Internet of things, which can overcome the defects of the prior art.

In order to achieve the aim, the invention provides a remote control method for treating organic solid wastes based on the Internet of things, which comprises the following steps:

establishing communication connection between a mobile terminal and a base station, wherein the base station is in communication connection with an organic solid waste treatment center server;

monitoring, by the mobile terminal, a transmit beam control configuration transmitted by the base station in response to establishing a communication connection with the base station, wherein the transmit beam control configuration indicates to the mobile terminal a control mode of a transmit beam of the mobile terminal;

in response to monitoring the control configuration of the transmitting wave beam, the mobile terminal judges the control mode of the transmitting wave beam of the mobile terminal;

if the control mode of the transmitting wave beam of the mobile terminal is judged to be the first wave beam control mode, the mobile terminal uses the first transmitting wave beam and the first transmitting power to send a first reference signal to the base station;

in response to monitoring the first reference signal, determining, by the base station, a first signal quality of the first reference signal;

if the first signal quality of the first reference signal is judged to be higher than the signal quality threshold, sending a beam determination instruction to the mobile terminal by the base station to inform the mobile terminal to transmit data to the base station by using a first transmission beam and first transmission power;

if the first signal quality of the first reference signal is judged to be lower than the signal quality threshold, the base station sends a first indication to the mobile terminal;

in response to receiving the first indication, transmitting, by the mobile terminal, a second reference signal to the base station using the first transmit beam and a second transmit power, wherein the second transmit power is greater than the first transmit power;

in response to monitoring the second reference signal, determining, by the base station, a second signal quality of the second reference signal;

if the second signal quality of the second reference signal is lower than the signal quality threshold, the base station sends a second indication to the mobile terminal;

in response to receiving the second indication, transmitting, by the mobile terminal, a third reference signal to the base station using the second transmit beam and the first transmit power.

In a preferred embodiment, the remote control method for treating organic solid wastes based on the internet of things comprises the following steps:

if the control mode of the transmitting wave beam of the mobile terminal is judged to be the second wave beam control mode, the mobile terminal uses the first transmitting wave beam and the first transmitting power to send a first reference signal to the base station;

in response to monitoring the first reference signal, determining, by the base station, a first signal quality of the first reference signal;

if the first signal quality of the first reference signal is judged to be higher than the signal quality threshold, sending a beam determination instruction to the mobile terminal by the base station to inform the mobile terminal to transmit data to the base station by using a first transmission beam and first transmission power;

if the first signal quality of the first reference signal is lower than the signal quality threshold, the base station sends a first indication to the mobile terminal;

transmitting, by the mobile terminal, a second reference signal to the base station using the second transmit beam and the first transmit power in response to receiving the first indication;

in response to monitoring the second reference signal, determining, by the base station, a second signal quality of the second reference signal;

if the second signal quality of the second reference signal is lower than the signal quality threshold, the base station sends a second indication to the mobile terminal;

in response to receiving the second indication, transmitting, by the mobile terminal, a third reference signal to the base station using the first transmit beam and a second transmit power, wherein the second transmit power is greater than the first transmit power;

in response to monitoring the third reference signal, determining, by the base station, a third signal quality of the third reference signal;

if the third signal quality of the third reference signal is lower than the signal quality threshold, the base station sends a third instruction to the mobile terminal;

in response to receiving the third indication, transmitting, by the mobile terminal, a fourth reference signal to the base station using the second transmit beam and the second transmit power.

In a preferred embodiment, the remote control method for treating organic solid wastes based on the internet of things comprises the following steps:

responding to the received beam determination instruction, and receiving and processing the running state of the organic solid waste device by the mobile terminal;

in response to receiving an operating status of processing the organic solid waste device, sending, by the mobile terminal, a scheduling request to the base station using a first beam;

transmitting, by the base station, an uplink grant to the mobile terminal in response to receiving the scheduling request;

in response to receiving the uplink grant, sending, by the mobile terminal, an operating status of processing the organic solid waste device to the base station;

if the base station does not correctly receive the operation state of the organic solid waste treatment device, the base station sends a first NACK message and a first priority indicator to the mobile terminal in a first time slot;

in response to receiving the first NACK message and the first priority indicator, preparing, by the mobile terminal, to send a retransmission to the base station at a second time slot handling the operational status of the organic solid waste device, wherein the second time slot is separated from the first time slot by three time slots;

in response to sending the first NACK message and the first priority indicator to the mobile terminal at the first time slot, sending, by the base station, an upload command to the mobile terminal at a third time slot, wherein the third time slot is a time slot immediately following the first time slot, wherein the upload command requires the mobile terminal to send a new operating state for processing the organic solid waste device to the base station at a second time slot, and wherein the upload command further includes the second priority indicator;

in response to receiving the upload command in the third time slot, the first priority indicated by the first priority indicator and the second priority indicated by the second priority indicator are determined by the mobile terminal.

In a preferred embodiment, the remote control method for treating organic solid wastes based on the internet of things comprises the following steps:

if the first priority indicated by the first priority indicator is higher than the second priority indicated by the second priority indicator, the mobile terminal sends retransmission for processing the running state of the organic solid waste device to the base station at the second time slot;

and if the first priority indicated by the first priority indicator is lower than the second priority indicated by the second priority indicator, the mobile terminal sends a new operation state for processing the organic solid waste device to the base station at the second time slot.

In a preferred embodiment, the remote control method for treating organic solid wastes based on the internet of things comprises the following steps:

in response to the operation state of the new organic solid waste treatment device sent to the base station, the mobile terminal continuously judges whether the first priority is lower than a priority threshold, wherein the priority threshold is generated by an organic solid waste treatment center server, and the organic solid waste treatment center server sends the priority threshold to the mobile terminal through the base station;

if the first priority is lower than the priority threshold, the mobile terminal gives up sending retransmission for processing the running state of the organic solid waste device to the base station;

and if the first priority is higher than the priority threshold, the mobile terminal sends retransmission for processing the running state of the organic solid waste device to the base station at the fourth time slot.

The invention also provides a remote control system for treating organic solid wastes based on the Internet of things, which comprises the following components:

the system comprises a unit for establishing communication connection between a mobile terminal and a base station, wherein the base station is in communication connection with an organic solid waste processing center server;

means for monitoring, by the mobile terminal, a transmit beam control configuration transmitted by the base station in response to establishing a communication connection with the base station, wherein the transmit beam control configuration indicates to the mobile terminal a control mode of a transmit beam of the mobile terminal;

means for determining, by the mobile terminal, a control mode of a transmit beam of the mobile terminal in response to monitoring the transmit beam control configuration;

means for transmitting, by the mobile terminal, a first reference signal to the base station using the first transmission beam and the first transmission power if it is determined that the control mode of the transmission beam of the mobile terminal is the first beam control mode;

means for determining, by a base station, a first signal quality of a first reference signal in response to listening for the first reference signal;

means for transmitting, by the base station, a beam determination instruction to the mobile terminal to inform the mobile terminal to transmit data to the base station using a first transmit beam and a first transmit power if it is determined that a first signal quality of the first reference signal is above a signal quality threshold;

means for sending, by the base station, a first indication to the mobile terminal if the first signal quality of the first reference signal is determined to be below the signal quality threshold;

means for transmitting, by the mobile terminal, a second reference signal to the base station using the first transmit beam and a second transmit power in response to receiving the first indication, wherein the second transmit power is greater than the first transmit power;

means for determining, by the base station, a second signal quality of the second reference signal in response to listening for the second reference signal;

means for sending, by the base station, a second indication to the mobile terminal if it is determined that a second signal quality of the second reference signal is below the signal quality threshold;

means for transmitting, by the mobile terminal, a third reference signal to the base station using the second transmit beam and the first transmit power in response to receiving the second indication.

In a preferred embodiment, the remote control system for treating organic solid wastes based on the internet of things comprises:

means for transmitting, by the mobile terminal, a first reference signal to the base station using the first transmit beam and the first transmit power if it is determined that the control mode of the transmit beam of the mobile terminal is the second beam control mode;

means for determining, by a base station, a first signal quality of a first reference signal in response to listening for the first reference signal;

means for transmitting, by the base station, a beam determination instruction to the mobile terminal to inform the mobile terminal to transmit data to the base station using a first transmit beam and a first transmit power if it is determined that a first signal quality of the first reference signal is above a signal quality threshold;

means for sending, by the base station, a first indication to the mobile terminal if the first signal quality of the first reference signal is determined to be below the signal quality threshold;

means for transmitting, by the mobile terminal, a second reference signal to the base station using a second transmit beam and the first transmit power in response to receiving the first indication;

means for determining, by the base station, a second signal quality of the second reference signal in response to listening for the second reference signal;

means for sending, by the base station, a second indication to the mobile terminal if it is determined that a second signal quality of the second reference signal is below the signal quality threshold;

means for transmitting, by the mobile terminal, a third reference signal to the base station using the first transmit beam and a second transmit power in response to receiving the second indication, wherein the second transmit power is greater than the first transmit power;

means for determining, by the base station, a third signal quality of the third reference signal in response to listening for the third reference signal;

means for sending, by the base station, a third indication to the mobile terminal if it is determined that a third signal quality of the third reference signal is below the signal quality threshold;

means for transmitting, by the mobile terminal, a fourth reference signal to the base station using the second transmit beam and the second transmit power in response to receiving the third indication.

In a preferred embodiment, the remote control system for treating organic solid wastes based on the internet of things comprises:

a unit for receiving and processing the operation state of the organic solid waste device by the mobile terminal in response to receiving the beam determination instruction;

means for transmitting, by the mobile terminal, a scheduling request to the base station using a first beam in response to receiving an operating status of processing the organic solid waste device;

means for transmitting, by a base station, an uplink grant to a mobile terminal in response to receiving a scheduling request;

means for transmitting, by the mobile terminal to the base station, an operational status of processing the organic solid waste device in response to receiving the uplink grant;

means for transmitting, by the base station to the mobile terminal, a first NACK message and a first priority indicator in a first time slot if the base station does not correctly receive an operating status of processing the organic solid waste device;

means for preparing, by the mobile terminal, to send a retransmission to the base station handling an operational status of the organic solid waste device at a second time slot in response to receiving the first NACK message and the first priority indicator, wherein the second time slot is separated from the first time slot by three time slots;

means for transmitting, by the base station, an upload command to the mobile terminal at a third time slot in response to transmitting the first NACK message and the first priority indicator to the mobile terminal at the first time slot, wherein the third time slot is a time slot immediately following the first time slot, wherein the upload command requires the mobile terminal to transmit a new operating state to the base station at a second time slot to handle organic solid waste devices, wherein the upload command further includes the second priority indicator;

means for determining, by the mobile terminal, a first priority indicated by the first priority indicator and a second priority indicated by the second priority indicator in response to receiving the upload command in the third time slot.

In a preferred embodiment, the remote control system for treating organic solid wastes based on the internet of things comprises:

a unit for transmitting, by the mobile terminal to the base station at the second time slot, a retransmission for processing the operation state of the organic solid waste device if it is determined that the first priority indicated by the first priority indicator is higher than the second priority indicated by the second priority indicator;

and a unit for sending a new operation state for processing the organic solid waste device to the base station by the mobile terminal at the second time slot if the first priority indicated by the first priority indicator is lower than the second priority indicated by the second priority indicator.

In a preferred embodiment, the remote control system for treating organic solid wastes based on the internet of things comprises:

means for continuing to determine, by the mobile terminal, whether the first priority is below a priority threshold in response to sending a new operating status of the organic solid waste treatment device to the base station, wherein the priority threshold is generated by an organic solid waste treatment center server, wherein the organic solid waste treatment center server sends the priority threshold to the mobile terminal via the base station;

a unit for giving up the retransmission for processing the operation status of the organic solid waste device to the base station by the mobile terminal if the first priority is judged to be lower than the priority threshold;

and the unit is used for sending the retransmission for processing the running state of the organic solid waste device to the base station by the mobile terminal in the fourth time slot if the first priority is judged to be higher than the priority threshold.

Compared with the prior art, the invention has the following advantages that the waste treatment technology is more and more widely concerned with the national attention on environmental protection and waste treatment. The difficulty of the current waste treatment technology is that the economic and environmental cost of waste treatment may be slightly higher or even much higher than the value of waste itself or the product after waste treatment, in which case waste treatment will rather aggravate the environmental destruction or the economic burden of enterprises, and in order to change the situation, the management cost of waste treatment needs to be reduced.

Specific embodiments of the present application are disclosed in detail with reference to the following description and drawings, indicating the manner in which the principles of the application may be employed. It should be understood that the embodiments of the present application are not so limited in scope. The embodiments of the application include many variations, modifications and equivalents within the spirit and scope of the appended claims.

Features that are described and/or illustrated with respect to one embodiment may be used in the same way or in a similar way in one or more other embodiments, in combination with or instead of the features of the other embodiments.

Drawings

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

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

Detailed Description

Specific embodiments of the present invention will be described in detail below with reference to 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.

Example 1:

fig. 1 is a schematic diagram of a system configuration according to an embodiment of the present invention. Those skilled in the art will appreciate that the control center (CPU or control unit similar to CPU) for processing the organic solid waste device can be communicatively connected with the wireless terminal (such as physically connected or connected via bluetooth, etc.) to realize short-range communication between the organic solid waste device and the mobile terminal.

FIG. 2 is a flow diagram of a method according to an embodiment of the invention. As shown in the figure, the remote control method for treating organic solid waste based on the Internet of things comprises the following steps:

step 101: establishing communication connection between a mobile terminal and a base station, wherein the base station is in communication connection with an organic solid waste treatment center server;

step 102: monitoring, by the mobile terminal, a transmit beam control configuration transmitted by the base station in response to establishing a communication connection with the base station, wherein the transmit beam control configuration indicates to the mobile terminal a control mode of a transmit beam of the mobile terminal;

step 103: in response to monitoring the control configuration of the transmitting wave beam, the mobile terminal judges the control mode of the transmitting wave beam of the mobile terminal;

step 104: if the control mode of the transmitting wave beam of the mobile terminal is judged to be the first wave beam control mode, the mobile terminal uses the first transmitting wave beam and the first transmitting power to send a first reference signal to the base station;

step 105: in response to monitoring the first reference signal, determining, by the base station, a first signal quality of the first reference signal;

step 106: if the first signal quality of the first reference signal is judged to be higher than the signal quality threshold, sending a beam determination instruction to the mobile terminal by the base station to inform the mobile terminal to transmit data to the base station by using a first transmission beam and first transmission power;

step 107: if the first signal quality of the first reference signal is lower than the signal quality threshold, the base station sends a first indication to the mobile terminal;

step 108: in response to receiving the first indication, transmitting, by the mobile terminal, a second reference signal to the base station using the first transmit beam and a second transmit power, wherein the second transmit power is greater than the first transmit power;

step 109: in response to monitoring the second reference signal, determining, by the base station, a second signal quality of the second reference signal;

step 110: if the second signal quality of the second reference signal is lower than the signal quality threshold, the base station sends a second indication to the mobile terminal;

step 111: in response to receiving the second indication, transmitting, by the mobile terminal, a third reference signal to the base station using the second transmit beam and the first transmit power.

In a preferred embodiment, the remote control method for treating organic solid wastes based on the internet of things comprises the following steps: if the control mode of the transmitting wave beam of the mobile terminal is judged to be the second wave beam control mode, the mobile terminal uses the first transmitting wave beam and the first transmitting power to send a first reference signal to the base station; in response to monitoring the first reference signal, judging, by the base station, a first signal quality of the first reference signal; if the first signal quality of the first reference signal is judged to be higher than the signal quality threshold, sending a beam determination instruction to the mobile terminal by the base station to inform the mobile terminal to transmit data to the base station by using a first transmission beam and first transmission power; if the first signal quality of the first reference signal is judged to be lower than the signal quality threshold, the base station sends a first indication to the mobile terminal; transmitting, by the mobile terminal, a second reference signal to the base station using the second transmit beam and the first transmit power in response to receiving the first indication; in response to monitoring the second reference signal, determining, by the base station, a second signal quality of the second reference signal; if the second signal quality of the second reference signal is lower than the signal quality threshold, the base station sends a second indication to the mobile terminal; in response to receiving the second indication, transmitting, by the mobile terminal, a third reference signal to the base station using the first transmit beam and a second transmit power, wherein the second transmit power is greater than the first transmit power; in response to monitoring the third reference signal, determining, by the base station, a third signal quality of the third reference signal; if the third signal quality of the third reference signal is lower than the signal quality threshold, the base station sends a third instruction to the mobile terminal; in response to receiving the third indication, transmitting, by the mobile terminal, a fourth reference signal to the base station using the second transmit beam and the second transmit power.

Example 2:

in a preferred embodiment, the remote control method for treating organic solid wastes based on the internet of things comprises the following steps: responding to the received beam determination instruction, and receiving and processing the running state of the organic solid waste device by the mobile terminal; in response to receiving an operating status of processing the organic solid waste device, sending, by the mobile terminal, a scheduling request to the base station using a first beam; transmitting, by the base station, an uplink grant to the mobile terminal in response to receiving the scheduling request; in response to receiving the uplink grant, sending, by the mobile terminal, an operating status of processing the organic solid waste device to the base station; if the base station does not correctly receive the operation state of the organic solid waste treatment device, the base station sends a first NACK message and a first priority indicator to the mobile terminal in a first time slot; in response to receiving the first NACK message and the first priority indicator, preparing, by the mobile terminal, to send a retransmission to the base station at a second time slot handling the operational status of the organic solid waste device, wherein the second time slot is separated from the first time slot by three time slots; in response to sending the first NACK message and the first priority indicator to the mobile terminal at the first time slot, sending, by the base station, an upload command to the mobile terminal at a third time slot, wherein the third time slot is a time slot immediately following the first time slot, wherein the upload command requires the mobile terminal to send a new operating state for processing the organic solid waste device to the base station at a second time slot, and wherein the upload command further includes the second priority indicator; in response to receiving the upload command in the third time slot, the first priority indicated by the first priority indicator and the second priority indicated by the second priority indicator are determined by the mobile terminal.

In a preferred embodiment, the remote control method for treating organic solid wastes based on the internet of things comprises the following steps: if the first priority indicated by the first priority indicator is higher than the second priority indicated by the second priority indicator, the mobile terminal sends retransmission for processing the running state of the organic solid waste device to the base station at a second time slot; and if the first priority indicated by the first priority indicator is lower than the second priority indicated by the second priority indicator, the mobile terminal sends a new operation state for processing the organic solid waste device to the base station at the second time slot.

In a preferred embodiment, the remote control method for treating organic solid wastes based on the internet of things comprises the following steps: in response to the operation state of the new organic solid waste treatment device sent to the base station, the mobile terminal continuously judges whether the first priority is lower than a priority threshold, wherein the priority threshold is generated by an organic solid waste treatment center server, and the organic solid waste treatment center server sends the priority threshold to the mobile terminal through the base station; if the first priority is lower than the priority threshold, the mobile terminal gives up sending retransmission for processing the running state of the organic solid waste device to the base station; and if the first priority is higher than the priority threshold, the mobile terminal sends retransmission for processing the running state of the organic solid waste device to the base station at the fourth time slot. As will be understood by those skilled in the art, after the organic solid waste treatment center server receives the operation status of the organic solid waste treatment device, the organic solid waste treatment center server can generate a control command for treating the organic solid waste treatment device based on the operation status, and then the server sends the relevant command to the mobile terminal, so that the mobile terminal can control the operation of treating the organic solid waste treatment device.

Example 3:

the invention also provides a remote control system for treating organic solid waste based on the Internet of things, which comprises: the system comprises a unit for establishing communication connection between a mobile terminal and a base station, wherein the base station is in communication connection with an organic solid waste processing center server; means for monitoring, by the mobile terminal, a transmit beam control configuration transmitted by the base station in response to establishing a communication connection with the base station, wherein the transmit beam control configuration indicates to the mobile terminal a control mode of a transmit beam of the mobile terminal; means for determining, by the mobile terminal, a control mode of a transmit beam of the mobile terminal in response to monitoring the transmit beam control configuration; means for transmitting, by the mobile terminal, a first reference signal to the base station using the first transmission beam and the first transmission power if it is determined that the control mode of the transmission beam of the mobile terminal is the first beam control mode; means for determining, by a base station, a first signal quality of a first reference signal in response to listening for the first reference signal; means for transmitting, by the base station, a beam determination instruction to the mobile terminal to inform the mobile terminal to transmit data to the base station using a first transmit beam and a first transmit power if it is determined that the first signal quality of the first reference signal is above the signal quality threshold; means for sending, by the base station, a first indication to the mobile terminal if the first signal quality of the first reference signal is determined to be below the signal quality threshold; means for transmitting, by the mobile terminal, a second reference signal to the base station using the first transmit beam and a second transmit power in response to receiving the first indication, wherein the second transmit power is greater than the first transmit power; means for determining, by the base station, a second signal quality of the second reference signal in response to listening for the second reference signal; means for sending, by the base station, a second indication to the mobile terminal if it is determined that a second signal quality of the second reference signal is below the signal quality threshold; means for transmitting, by the mobile terminal, a third reference signal to the base station using the second transmit beam and the first transmit power in response to receiving the second indication.

In a preferred embodiment, the remote control system for treating organic solid wastes based on the internet of things comprises: means for transmitting, by the mobile terminal, a first reference signal to the base station using the first transmit beam and the first transmit power if it is determined that the control mode of the transmit beam of the mobile terminal is the second beam control mode; means for determining, by a base station, a first signal quality of a first reference signal in response to listening for the first reference signal; means for transmitting, by the base station, a beam determination instruction to the mobile terminal to inform the mobile terminal to transmit data to the base station using a first transmit beam and a first transmit power if it is determined that a first signal quality of the first reference signal is above a signal quality threshold; means for sending, by the base station, a first indication to the mobile terminal if the first signal quality of the first reference signal is determined to be below the signal quality threshold; means for transmitting, by the mobile terminal, a second reference signal to the base station using a second transmit beam and the first transmit power in response to receiving the first indication; means for determining, by the base station, a second signal quality of the second reference signal in response to listening for the second reference signal; means for sending, by the base station, a second indication to the mobile terminal if it is determined that a second signal quality of the second reference signal is below the signal quality threshold; means for transmitting, by the mobile terminal, a third reference signal to the base station using the first transmit beam and a second transmit power in response to receiving the second indication, wherein the second transmit power is greater than the first transmit power; means for determining, by the base station, a third signal quality of the third reference signal in response to listening for the third reference signal; means for sending, by the base station, a third indication to the mobile terminal if it is determined that a third signal quality of the third reference signal is below the signal quality threshold; means for transmitting, by the mobile terminal, a fourth reference signal to the base station using the second transmit beam and the second transmit power in response to receiving the third indication.

Example 4:

in a preferred embodiment, the remote control system for treating organic solid wastes based on the internet of things comprises: a unit for receiving and processing the operation state of the organic solid waste device by the mobile terminal in response to receiving the beam determination instruction; means for transmitting, by the mobile terminal, a scheduling request to the base station using a first beam in response to receiving an operating status of processing the organic solid waste device; means for transmitting, by the base station, an uplink grant to the mobile terminal in response to receiving the scheduling request; means for transmitting, by the mobile terminal to the base station, an operational status of processing the organic solid waste device in response to receiving the uplink grant; means for transmitting, by the base station to the mobile terminal, a first NACK message and a first priority indicator in a first time slot if the base station does not correctly receive an operating status of processing the organic solid waste device; means for preparing, by the mobile terminal, to send a retransmission to the base station handling the operational status of the organic solid waste device at a second time slot in response to receiving the first NACK message and the first priority indicator, wherein the second time slot is separated from the first time slot by three time slots; means for transmitting, by the base station, an upload command to the mobile terminal at a third time slot in response to transmitting the first NACK message and the first priority indicator to the mobile terminal at the first time slot, wherein the third time slot is a time slot immediately following the first time slot, wherein the upload command requires the mobile terminal to transmit a new operating state to the base station at a second time slot to handle organic solid waste devices, wherein the upload command further includes the second priority indicator; means for determining, by the mobile terminal, a first priority indicated by the first priority indicator and a second priority indicated by the second priority indicator in response to receiving the upload command in the third time slot.

In a preferred embodiment, the remote control system for treating organic solid wastes based on the internet of things comprises: a unit for transmitting, by the mobile terminal to the base station at the second time slot, a retransmission for processing the operation state of the organic solid waste device if it is determined that the first priority indicated by the first priority indicator is higher than the second priority indicated by the second priority indicator; and a unit for sending a new operation state for processing the organic solid waste device to the base station by the mobile terminal at the second time slot if the first priority indicated by the first priority indicator is lower than the second priority indicated by the second priority indicator.

In a preferred embodiment, the remote control system for treating organic solid wastes based on the internet of things comprises: means for continuing to determine, by the mobile terminal, whether the first priority is below a priority threshold in response to sending a new operating status of the organic solid waste treatment device to the base station, wherein the priority threshold is generated by an organic solid waste treatment center server, wherein the organic solid waste treatment center server sends the priority threshold to the mobile terminal via the base station; a unit for giving up the retransmission for processing the operation status of the organic solid waste device to the base station by the mobile terminal if the first priority is judged to be lower than the priority threshold; and the unit is used for sending the retransmission for processing the running state of the organic solid waste device to the base station by the mobile terminal in the fourth time slot if the first priority is judged to be higher than the priority threshold.

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 so forth) 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 description of specific exemplary embodiments of the invention has been presented for the 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 (10)

1. The remote control method for treating organic solid waste based on the Internet of things is characterized by comprising the following steps of:

establishing communication connection between a mobile terminal and a base station, wherein the base station is in communication connection with an organic solid waste treatment center server;

monitoring, by a mobile terminal, a transmit beam control configuration transmitted by a base station in response to establishing a communication connection with the base station, wherein the transmit beam control configuration indicates to the mobile terminal a control mode of a transmit beam of the mobile terminal;

in response to monitoring the transmission beam control configuration, judging a control mode of a transmission beam of the mobile terminal by the mobile terminal;

if the control mode of the transmitting wave beam of the mobile terminal is judged to be a first wave beam control mode, the mobile terminal sends a first reference signal to the base station by using the first transmitting wave beam and first transmitting power;

in response to monitoring the first reference signal, determining, by a base station, a first signal quality of the first reference signal;

if the first signal quality of the first reference signal is judged to be higher than the signal quality threshold, sending a beam determination instruction to the mobile terminal by the base station to inform the mobile terminal to transmit data to the base station by using a first transmission beam and first transmission power;

if the first signal quality of the first reference signal is lower than the signal quality threshold, the base station sends a first indication to the mobile terminal;

in response to receiving the first indication, transmitting, by a mobile terminal, a second reference signal to the base station using a first transmit beam and a second transmit power, wherein the second transmit power is greater than the first transmit power;

in response to monitoring the second reference signal, determining, by the base station, a second signal quality of the second reference signal;

if the second signal quality of the second reference signal is lower than the signal quality threshold, the base station sends a second indication to the mobile terminal;

in response to receiving the second indication, transmitting, by the mobile terminal, a third reference signal to the base station using a second transmit beam and the first transmit power.

2. The internet of things-based remote control method for treating organic solid waste, according to claim 1, wherein the internet of things-based remote control method for treating organic solid waste comprises the following steps:

if the control mode of the transmitting wave beam of the mobile terminal is judged to be the second wave beam control mode, the mobile terminal sends a first reference signal to the base station by using a first transmitting wave beam and first transmitting power;

in response to monitoring the first reference signal, determining, by a base station, a first signal quality of the first reference signal;

if the first signal quality of the first reference signal is judged to be higher than the signal quality threshold, transmitting a beam determination instruction to the mobile terminal by the base station to inform the mobile terminal to transmit data to the base station by using a first transmission beam and a first transmission power;

if the first signal quality of the first reference signal is lower than the signal quality threshold, the base station sends a first indication to the mobile terminal;

transmitting, by the mobile terminal, a second reference signal to the base station using a second transmit beam and a first transmit power in response to receiving the first indication;

in response to monitoring the second reference signal, determining, by the base station, a second signal quality of the second reference signal;

if the second signal quality of the second reference signal is lower than the signal quality threshold, the base station sends a second instruction to the mobile terminal;

in response to receiving the second indication, transmitting, by the mobile terminal, a third reference signal to the base station using a first transmit beam and a second transmit power, wherein the second transmit power is greater than the first transmit power;

determining, by the base station, a third signal quality of the third reference signal in response to monitoring the third reference signal;

if the third signal quality of the third reference signal is lower than the signal quality threshold, the base station sends a third instruction to the mobile terminal;

transmitting, by the mobile terminal, a fourth reference signal to the base station using a second transmit beam and a second transmit power in response to receiving the third indication.

3. The internet of things-based remote control method for treating organic solid waste, according to claim 2, wherein the internet of things-based remote control method for treating organic solid waste comprises the following steps:

receiving and processing the running state of the organic solid waste device by the mobile terminal in response to receiving the beam determination instruction;

in response to receiving the operating state of the organic solid waste treatment device, sending a scheduling request to the base station by the mobile terminal by using a first beam;

transmitting, by a base station, an uplink grant to the mobile terminal in response to receiving the scheduling request;

in response to receiving the uplink grant, sending, by the mobile terminal, an operating status of processing the organic solid waste device to the base station;

if the base station does not correctly receive the operation state of the organic solid waste treatment device, the base station sends a first NACK message and a first priority indicator to the mobile terminal in a first time slot;

in response to receiving the first NACK message and a first priority indicator, preparing, by a mobile terminal, to send a retransmission of the operating status of the processing organic solid waste device to the base station at a second time slot, wherein the second time slot is separated from the first time slot by three time slots;

in response to transmitting a first NACK message and a first priority indicator to the mobile terminal at a first time slot, transmitting, by a base station, an upload command to the mobile terminal at a third time slot, wherein the third time slot is a time slot immediately following the first time slot, wherein the upload command requires the mobile terminal to transmit a new operating status of the mobile terminal for processing organic solid waste devices to the base station at the second time slot, wherein a second priority indicator is also included in the upload command;

and in response to receiving the uploading command in the third time slot, judging a first priority indicated by the first priority indicator and a second priority indicated by the second priority indicator by the mobile terminal.

4. The internet of things-based remote control method for treating organic solid waste, according to claim 3, wherein the internet of things-based remote control method for treating organic solid waste comprises the following steps:

if the first priority indicated by the first priority indicator is higher than the second priority indicated by the second priority indicator, the mobile terminal sends retransmission for processing the operation state of the organic solid waste device to the base station in the second time slot;

and if the first priority indicated by the first priority indicator is lower than the second priority indicated by the second priority indicator, the mobile terminal sends a new operation state for processing the organic solid waste device to the base station at the second time slot.

5. The internet of things-based remote control method for treating organic solid waste, according to claim 4, wherein the internet of things-based remote control method for treating organic solid waste comprises the following steps:

in response to the operation state of the new organic solid waste treatment device being sent to the base station, the mobile terminal continuously judges whether the first priority is lower than a priority threshold, wherein the priority threshold is generated by the organic solid waste treatment center server, and the organic solid waste treatment center server sends the priority threshold to the mobile terminal via the base station;

if the first priority is lower than the priority threshold, the mobile terminal gives up sending retransmission for processing the running state of the organic solid waste device to the base station;

and if the first priority is higher than the priority threshold, the mobile terminal sends retransmission for processing the running state of the organic solid waste device to the base station at a fourth time slot.

6. The remote control system for processing organic solid waste based on the Internet of things is characterized by comprising the following components in parts by weight:

the system comprises a unit for establishing communication connection between a mobile terminal and a base station, wherein the base station is in communication connection with an organic solid waste processing center server;

means for monitoring, by a mobile terminal, a transmit beam control configuration transmitted by a base station in response to establishing a communication connection with the base station, wherein the transmit beam control configuration indicates to the mobile terminal a control mode of a transmit beam of the mobile terminal;

means for determining, by a mobile terminal, a control mode of a transmit beam of the mobile terminal in response to monitoring the transmit beam control configuration;

means for transmitting, by the mobile terminal, a first reference signal to the base station using a first transmission beam and a first transmission power if it is determined that a control mode of a transmission beam of the mobile terminal is a first beam control mode;

means for determining, by a base station, a first signal quality of the first reference signal in response to listening for the first reference signal;

means for transmitting, by a base station, a beam determination instruction to the mobile terminal to inform the mobile terminal to transmit data to the base station using a first transmit beam and a first transmit power if it is determined that a first signal quality of the first reference signal is above a signal quality threshold;

means for sending, by a base station, a first indication to the mobile terminal if it is determined that a first signal quality of the first reference signal is below a signal quality threshold;

means for transmitting, by a mobile terminal, a second reference signal to the base station using a first transmit beam and a second transmit power in response to receiving the first indication, wherein the second transmit power is greater than the first transmit power;

means for determining, by a base station, a second signal quality of the second reference signal in response to listening for the second reference signal;

means for sending, by a base station, a second indication to the mobile terminal if a second signal quality of the second reference signal is determined to be less than a signal quality threshold;

means for transmitting, by the mobile terminal, a third reference signal to the base station using a second transmit beam and the first transmit power in response to receiving the second indication.

7. The internet of things based remote control system for organic solid waste treatment according to claim 6, wherein the internet of things based remote control system for organic solid waste treatment comprises:

means for transmitting, by the mobile terminal, a first reference signal to the base station using a first transmit beam and a first transmit power if it is determined that a control mode of a transmit beam of the mobile terminal is a second beam control mode;

means for determining, by a base station, a first signal quality of the first reference signal in response to listening for the first reference signal;

means for transmitting, by a base station, a beam determination instruction to the mobile terminal to inform the mobile terminal to transmit data to the base station using a first transmit beam and a first transmit power if it is determined that a first signal quality of the first reference signal is above a signal quality threshold;

means for sending, by a base station, a first indication to the mobile terminal if it is determined that a first signal quality of the first reference signal is below a signal quality threshold;

means for transmitting, by a mobile terminal, a second reference signal to the base station using a second transmit beam and a first transmit power in response to receiving the first indication;

means for determining, by a base station, a second signal quality of the second reference signal in response to listening for the second reference signal;

means for sending, by the base station, a second indication to the mobile terminal if it is determined that a second signal quality of the second reference signal is below a signal quality threshold;

means for transmitting, by a mobile terminal, a third reference signal to the base station using a first transmit beam and a second transmit power in response to receiving the second indication, wherein the second transmit power is greater than the first transmit power;

means for determining, by a base station, a third signal quality of the third reference signal in response to listening for the third reference signal;

means for sending, by the base station, a third indication to the mobile terminal if it is determined that a third signal quality of the third reference signal is below a signal quality threshold;

means for transmitting, by the mobile terminal, a fourth reference signal to the base station using a second transmit beam and a second transmit power in response to receiving the third indication.

8. The internet of things based remote control system for treating organic solid waste of claim 7, wherein the internet of things based remote control system for treating organic solid waste comprises:

means for receiving, by the mobile terminal, an operating state of processing the organic solid waste device in response to receiving the beam determination instruction;

means for transmitting, by a mobile terminal, a scheduling request to the base station using a first beam in response to receiving the operational status of the apparatus for processing organic solid waste;

means for transmitting, by a base station, an uplink grant to the mobile terminal in response to receiving the scheduling request;

means for transmitting, by a mobile terminal to the base station, an operational status of processing organic solid waste devices in response to receiving the uplink grant;

means for sending, by a base station, a first NACK message and a first priority indicator to the mobile terminal at a first time slot if the base station does not correctly receive the operating status of the processing organic solid waste device;

means for preparing, by a mobile terminal, in response to receiving the first NACK message and a first priority indicator, to send a retransmission to the base station that handles the operational status of the organic solid waste device at a second time slot, wherein the second time slot is separated from the first time slot by three time slots;

means for transmitting, by a base station, an upload command to the mobile terminal at a third time slot in response to transmitting a first NACK message and a first priority indicator to the mobile terminal at a first time slot, wherein the third time slot is a time slot immediately following the first time slot, wherein the upload command requires the mobile terminal to transmit a new operational status of processing organic solid waste devices to the base station at the second time slot, wherein a second priority indicator is also included in the upload command;

means for determining, by a mobile terminal, a first priority indicated by the first priority indicator and a second priority indicated by the second priority indicator in response to receiving the upload command in the third time slot.

9. The internet of things based remote control system for processing organic solid wastes according to claim 8, wherein the internet of things based remote control system for processing organic solid wastes comprises:

a unit configured to send, by the mobile terminal to the base station, a retransmission for processing an operation state of the organic solid waste device in the second time slot if it is determined that the first priority indicated by the first priority indicator is higher than the second priority indicated by the second priority indicator;

and a unit for sending a new operation state for processing the organic solid waste device to the base station by the mobile terminal in the second time slot if the first priority indicated by the first priority indicator is lower than the second priority indicated by the second priority indicator.

10. The internet of things based remote control system for treating organic solid waste of claim 9, wherein the internet of things based remote control system for treating organic solid waste comprises:

means for continuing to determine, by the mobile terminal, whether the first priority is lower than a priority threshold in response to sending a new operating status of the organic solid waste treatment device to the base station, wherein the priority threshold is generated by the organic solid waste treatment center server, and wherein the organic solid waste treatment center server sends the priority threshold to the mobile terminal via the base station;

a unit configured to, if it is determined that the first priority is lower than the priority threshold, cause the mobile terminal to give up sending, to the base station, a retransmission for processing the operation status of the organic solid waste device;

and the unit is used for sending the retransmission for processing the running state of the organic solid waste device to the base station by the mobile terminal at a fourth time slot if the first priority is higher than the priority threshold.

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