CN112968820A - Intelligent building comprehensive information transmission method and system based on information feedback design - Google Patents

Abstract

The invention discloses an intelligent building comprehensive information transmission method based on information feedback design, which comprises the following steps: generating a mobile terminal control command in the building by an intelligent building management center server, and sending the mobile terminal control command in the building to a base station by the intelligent building management center server; in response to receiving the mobile terminal control command in the building, sending the mobile terminal control command in the building to the first mobile terminal by the base station; in response to receiving the in-building mobile terminal control command, sending, by the first mobile terminal, a first sidelink control message and the in-building mobile terminal control command to the first in-building mobile terminal; the second in-building mobile terminal sends a second side link control message and a first intelligent building management message to the first mobile terminal; and sending a third side link control message and a second intelligent building management message to the first mobile terminal by the third in-building mobile terminal.

Description

Intelligent building comprehensive information transmission method and system based on information feedback design

Technical Field

The invention relates to the technical field of intelligent building management, in particular to an intelligent building comprehensive information transmission method and system based on information feedback design.

Background

As an important component of a city, namely a building, almost all activities of human beings are borne, and the construction of an intelligent building system can provide convenient services for the life and work of the human beings and improve the living standard of the human beings.

Prior art CN111626604A discloses an intelligent building platform system based on micro service architecture, which includes: step 1, performing demand analysis on an intelligent building platform system; step 2, adopting a hundred-degree camera to capture a face, calling a hundred-degree API through a VC platform to recognize the face, and returning a face recognition result to the intelligent building platform system; and 3, designing a database, a user management micro-service module, an attendance card punching micro-service module, a light source control micro-service module, a monitoring management micro-service module, an equipment management micro-service module and an interface according to the requirement analysis of the intelligent building platform system.

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 an intelligent building comprehensive information transmission method and system based on information feedback design, which can overcome the defects of the prior art.

In order to achieve the purpose, the invention provides an intelligent building comprehensive information transmission method based on information feedback design, which comprises the following steps:

generating a mobile terminal control command in the building by an intelligent building management center server, and sending the mobile terminal control command in the building to a base station by the intelligent building management center server;

in response to receiving the mobile terminal control command in the building, sending the mobile terminal control command in the building to the first mobile terminal by the base station;

in response to receiving the in-building mobile terminal control command, sending, by the first mobile terminal, a first sidelink control message and the in-building mobile terminal control command to the first in-building mobile terminal, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for sending feedback information;

the method comprises the steps that a second in-building mobile terminal sends a second sidelink control message and a first intelligent building management message to a first mobile terminal, wherein the second sidelink control message indicates a first time-frequency resource for sending feedback information to the first mobile terminal;

the third side link control message and the second intelligent building management message are sent to the first mobile terminal by the third in-building mobile terminal, wherein the third side link control message indicates a first time-frequency resource for sending feedback information to the first mobile terminal;

judging whether the mobile terminal in the first building can correctly decode the control command of the mobile terminal in the building by the mobile terminal in the first building, and judging whether the first mobile terminal can correctly decode the first intelligent building management message and the second intelligent building management message by the first mobile terminal;

if the mobile terminal in the first building can correctly decode the control command of the mobile terminal in the building, the mobile terminal in the first building sends a first ACK message on the first time-frequency resource;

and if the first in-building mobile terminal is judged not to be capable of correctly decoding the in-building mobile terminal control command, the first in-building mobile terminal sends a first NACK message on the first time-frequency resource.

In a preferred embodiment, the intelligent building integrated information transmission method designed based on the information feedback comprises the following steps:

if the first mobile terminal is judged to be capable of correctly decoding the first intelligent building management message, the first mobile terminal sends a second ACK message to the second in-building mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource;

if the first mobile terminal is judged to be incapable of correctly decoding the first intelligent building management message, generating a second NACK message aiming at the first intelligent building management message by the first mobile terminal, and monitoring a first ACK message or a first NACK message sent by the mobile terminal in the first building on a first time-frequency resource by the first mobile terminal, wherein when the first mobile terminal monitors the first ACK message or the first NACK message sent by the mobile terminal in the first building on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the mobile terminal in the second building on the first time-frequency resource;

if the first mobile terminal is judged to be capable of correctly decoding the first intelligent building management message and the second intelligent building management message, judging a first priority level for feeding back the first intelligent building management message and a second priority level for feeding back the second intelligent building management message by the first mobile terminal, wherein the first priority level is indicated in the second sidelink control message, and the second priority level is indicated in the third sidelink control message;

and if the first priority is higher than the second priority, sending a second ACK message to the second in-building mobile terminal by the first mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a third ACK message to the third in-building mobile terminal.

In a preferred embodiment, the intelligent building integrated information transmission method designed based on the information feedback comprises the following steps:

if the first priority is lower than the second priority, sending a third ACK message to a third in-building mobile terminal by the first mobile terminal on the first time-frequency resource, wherein when the third ACK message is sent to the third in-building mobile terminal by the first mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send the second ACK message to the second in-building mobile terminal;

if the first mobile terminal is judged to be capable of correctly decoding the first intelligent building management message and incapable of correctly decoding the second intelligent building management message, the first mobile terminal sends a second ACK message to the second in-building mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a third NACK message to the third in-building mobile terminal;

if the first mobile terminal is judged to be incapable of correctly decoding the first intelligent building management message and capable of correctly decoding the second intelligent building management message, the first mobile terminal sends a third ACK message to the third in-building mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the third ACK message to the third in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a second NACK message to the second in-building mobile terminal;

if the first mobile terminal is judged to be incapable of correctly decoding the first intelligent building management message and incapable of correctly decoding the second intelligent building management message, generating a second NACK message aiming at the first intelligent building management message and a third NACK message aiming at the second intelligent building management message by the first mobile terminal, and monitoring a first ACK message or a first NACK message sent by the mobile terminal in the first building by the first mobile terminal on the first time-frequency resource, wherein when the first mobile terminal monitors the first ACK message or the first NACK message sent by the mobile terminal in the first building on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the mobile terminal in the second building on the first time-frequency resource, and the first mobile terminal does not send the third NACK message to the mobile terminal in the third building.

In a preferred embodiment, the intelligent building integrated information transmission method designed based on the information feedback comprises the following steps:

in response to receiving the mobile terminal control command in the building, sending the mobile terminal control command in the building to the first mobile terminal by the base station;

in response to receiving the in-building mobile terminal control command, sending, by the first mobile terminal, a first sidelink control message and the in-building mobile terminal control command to the first in-building mobile terminal, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for sending feedback information;

in response to receiving the in-building mobile terminal control command, transmitting, by the first mobile terminal, a fourth sidelink control message and the in-building mobile terminal control command to a fourth in-building mobile terminal, wherein the fourth sidelink control message indicates to the fourth in-building mobile terminal the first time-frequency resource for transmitting feedback information.

In a preferred embodiment, the intelligent building integrated information transmission method designed based on the information feedback comprises the following steps:

in response to receiving the first side link control message and the in-building mobile terminal control command, the first in-building mobile terminal judges whether the in-building mobile terminal control command can be correctly decoded;

in response to receiving the fourth sidelink control message and the in-building mobile terminal control command, determining, by the fourth in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded;

if the mobile terminal in the first building can correctly decode the control command of the mobile terminal in the building, the mobile terminal in the first building sends a first ACK message on the first time-frequency resource;

if the mobile terminal in the first building cannot correctly decode the mobile terminal control command in the building, the mobile terminal in the first building sends a first NACK message on the first time-frequency resource;

if the fourth building mobile terminal is judged to be capable of correctly decoding the building mobile terminal control command, the fourth building mobile terminal does not send the ACK message on the first time-frequency resource;

if the fourth mobile terminal in the building is judged not to be capable of correctly decoding the control command of the mobile terminal in the building, the fourth mobile terminal in the building sends a fourth NACK message on the first time-frequency resource;

in response to feedback information that will be received by the first in-building mobile terminal and the fourth in-building mobile terminal on the first time-frequency resource, an attempt is made by the first mobile terminal to listen for a first ACK message or a first NACK message sent by the first in-building mobile terminal, and the first mobile terminal does not attempt to listen for a fourth NACK message sent by the fourth in-building mobile terminal.

The invention provides an intelligent building comprehensive information transmission system based on information feedback design, which comprises:

a unit for generating a mobile terminal control command in the building by the intelligent building management center server and sending the mobile terminal control command in the building to the base station by the intelligent building management center server;

means for transmitting, by the base station, the in-building mobile terminal control command to the first mobile terminal in response to receiving the in-building mobile terminal control command;

means for transmitting, by the first mobile terminal, a first sidelink control message to the first in-building mobile terminal in response to receiving the in-building mobile terminal control command, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for transmitting feedback information;

means for sending, by a second in-building mobile terminal, a second sidelink control message and a first intelligent building management message to a first mobile terminal, wherein the second sidelink control message indicates to the first mobile terminal a first time-frequency resource for sending feedback information;

means for transmitting, by a third in-building mobile terminal, a third sidelink control message and a second intelligent building management message to the first mobile terminal, wherein the third sidelink control message indicates to the first mobile terminal a first time-frequency resource for transmitting feedback information;

a unit for judging whether the mobile terminal in the first building can correctly decode the control command of the mobile terminal in the building by the mobile terminal in the first building, and judging whether the first mobile terminal can correctly decode the first intelligent building management message and the second intelligent building management message by the first mobile terminal;

means for sending a first ACK message by the first in-building mobile terminal on the first time-frequency resource if it is determined that the first in-building mobile terminal can correctly decode the in-building mobile terminal control command;

means for transmitting, by the first in-building mobile terminal, a first NACK message on the first time-frequency resource if it is determined that the first in-building mobile terminal is not capable of correctly decoding the in-building mobile terminal control command.

In a preferred embodiment, the intelligent building integrated information transmission system designed based on information feedback comprises:

means for sending a second ACK message by the first mobile terminal to the second in-building mobile terminal on the first time-frequency resource if it is determined that the first mobile terminal can correctly decode the first intelligent building management message, wherein the first mobile terminal does not monitor a first ACK message or a first NACK message sent by the first in-building mobile terminal on the first time-frequency resource when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource;

means for generating, by the first mobile terminal, a second NACK message for the first intelligent building management message if it is determined that the first mobile terminal is unable to correctly decode the first intelligent building management message, and monitoring, by the first mobile terminal, the first ACK message or the first NACK message sent by the mobile terminal within the first building on the first time-frequency resource, wherein, when the first mobile terminal monitors the first ACK message or the first NACK message sent by the mobile terminal within the first building on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the mobile terminal within the second building on the first time-frequency resource;

means for determining, by the first mobile terminal, a first priority for feedback for the first intelligent building management message and a second priority for feedback for the second intelligent building management message if the first mobile terminal is determined to be able to correctly decode the first intelligent building management message and the second intelligent building management message, wherein the first priority is indicated in the second sidelink control message, wherein the second priority is indicated in the third sidelink control message;

means for transmitting, by the first mobile terminal, a second ACK message to the second in-building mobile terminal on the first time-frequency resource if the first priority is higher than the second priority, wherein when the first mobile terminal transmits the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not listen for the first ACK message or the first NACK message transmitted by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not transmit the third ACK message to the third in-building mobile terminal.

In a preferred embodiment, the intelligent building integrated information transmission system designed based on information feedback comprises:

means for transmitting, by the first mobile terminal, a third ACK message to the third in-building mobile terminal on the first time-frequency resource if the first priority is lower than the second priority, wherein, when the first mobile terminal transmits the third ACK message to the third in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not listen for the first ACK message or the first NACK message transmitted by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not transmit the second ACK message to the second in-building mobile terminal;

means for sending, by the first mobile terminal, a second ACK message to the second in-building mobile terminal on the first time-frequency resource if it is determined that the first mobile terminal is capable of correctly decoding the first intelligent building management message and is incapable of correctly decoding the second intelligent building management message, wherein, when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not listen on the first time-frequency resource for the first ACK message or the first NACK message sent by the first in-building mobile terminal, and the first mobile terminal does not send a third NACK message to the third in-building mobile terminal;

means for sending, by the first mobile terminal, a third ACK message to the third in-building mobile terminal on the first time-frequency resource if it is determined that the first mobile terminal is not capable of correctly decoding the first intelligent building management message and is capable of correctly decoding the second intelligent building management message, wherein, when the first mobile terminal sends the third ACK message to the third in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send the second NACK message to the second in-building mobile terminal;

means for generating, by the first mobile terminal, a second NACK message for the first intelligent building management message and a third NACK message for the second intelligent building management message if it is determined that the first mobile terminal is not able to correctly decode the first intelligent building management message and is not able to correctly decode the second intelligent building management message, and monitoring, by the first mobile terminal, a first ACK message or a first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, wherein, when the first mobile terminal monitors the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the second in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send the third NACK message to the third in-building mobile terminal.

In a preferred embodiment, the intelligent building integrated information transmission system designed based on information feedback comprises:

means for transmitting, by the base station, the in-building mobile terminal control command to the first mobile terminal in response to receiving the in-building mobile terminal control command;

means for transmitting, by the first mobile terminal, a first sidelink control message to the first in-building mobile terminal in response to receiving the in-building mobile terminal control command, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for transmitting feedback information;

means for transmitting, by the first mobile terminal, a fourth sidelink control message and the in-building mobile terminal control command to a fourth in-building mobile terminal in response to receiving the in-building mobile terminal control command, wherein the fourth sidelink control message indicates to the fourth in-building mobile terminal the first time-frequency resource for transmitting feedback information.

In a preferred embodiment, the intelligent building integrated information transmission system designed based on information feedback comprises:

means for determining, by the first in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded in response to receiving the first sidelink control message and the in-building mobile terminal control command;

means for determining, by the fourth in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded in response to receiving the fourth sidelink control message and the in-building mobile terminal control command;

means for sending a first ACK message by the first in-building mobile terminal on the first time-frequency resource if it is determined that the first in-building mobile terminal can correctly decode the in-building mobile terminal control command;

means for transmitting, by the first in-building mobile terminal, a first NACK message on the first time-frequency resource if it is determined that the first in-building mobile terminal is not capable of correctly decoding the in-building mobile terminal control command;

means for transmitting an ACK message to the fourth mobile terminal if it is determined that the fourth mobile terminal can decode the in-building mobile terminal control command correctly;

means for transmitting a fourth NACK message by the fourth in-building mobile terminal on the first time-frequency resource if it is determined that the fourth in-building mobile terminal is unable to correctly decode the in-building mobile terminal control command;

means for attempting, by the first mobile terminal, to listen to a first ACK message or a first NACK message sent by the first in-building mobile terminal, and not attempting, by the first mobile terminal, to listen to a fourth NACK message sent by the fourth in-building mobile terminal, in response to feedback information for the first in-building mobile terminal and the fourth in-building mobile terminal being to be received on the first time-frequency resource.

Compared with the prior art, the intelligent building technology development method has the following advantages that the next decade is the period of rapid development of the intelligent building technology, and a great amount of computer technology, sensor technology and transmission technology related to the intelligent building technology are developed in the period. In view of the needs of the prior art, the present application provides an intelligent building integrated information transmission method and system based on information feedback design.

Drawings

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

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

Detailed Description

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

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

Example 1

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. As shown in the figure, the intelligent building comprehensive information transmission method based on information feedback design comprises the following steps:

step 101: generating a mobile terminal control command in the building by an intelligent building management center server, and sending the mobile terminal control command in the building to a base station by the intelligent building management center server;

step 102: in response to receiving the mobile terminal control command in the building, sending the mobile terminal control command in the building to the first mobile terminal by the base station;

step 103: in response to receiving the in-building mobile terminal control command, sending, by the first mobile terminal, a first sidelink control message and the in-building mobile terminal control command to the first in-building mobile terminal, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for sending feedback information;

step 104: the method comprises the steps that a second in-building mobile terminal sends a second sidelink control message and a first intelligent building management message to a first mobile terminal, wherein the second sidelink control message indicates a first time-frequency resource for sending feedback information to the first mobile terminal;

step 105: the third side link control message and the second intelligent building management message are sent to the first mobile terminal by the third in-building mobile terminal, wherein the third side link control message indicates a first time-frequency resource for sending feedback information to the first mobile terminal;

step 106: judging whether the mobile terminal in the first building can correctly decode the control command of the mobile terminal in the building by the mobile terminal in the first building, and judging whether the first mobile terminal can correctly decode the first intelligent building management message and the second intelligent building management message by the first mobile terminal;

step 107: if the mobile terminal in the first building can correctly decode the control command of the mobile terminal in the building, the mobile terminal in the first building sends a first ACK message on the first time-frequency resource;

step 108: and if the first in-building mobile terminal is judged not to be capable of correctly decoding the in-building mobile terminal control command, the first in-building mobile terminal sends a first NACK message on the first time-frequency resource.

In the scheme, the intelligent building comprehensive information transmission method based on the information feedback design comprises the following steps: if the first mobile terminal is judged to be capable of correctly decoding the first intelligent building management message, the first mobile terminal sends a second ACK message to the second in-building mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource; if the first mobile terminal is judged to be incapable of correctly decoding the first intelligent building management message, generating a second NACK message aiming at the first intelligent building management message by the first mobile terminal, and monitoring a first ACK message or a first NACK message sent by the mobile terminal in the first building on a first time-frequency resource by the first mobile terminal, wherein when the first mobile terminal monitors the first ACK message or the first NACK message sent by the mobile terminal in the first building on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the mobile terminal in the second building on the first time-frequency resource; if the first mobile terminal is judged to be capable of correctly decoding the first intelligent building management message and the second intelligent building management message, judging a first priority level for feeding back the first intelligent building management message and a second priority level for feeding back the second intelligent building management message by the first mobile terminal, wherein the first priority level is indicated in the second sidelink control message, and the second priority level is indicated in the third sidelink control message; and if the first priority is higher than the second priority, sending a second ACK message to the second in-building mobile terminal by the first mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a third ACK message to the third in-building mobile terminal.

Further, the intelligent building comprehensive information transmission method based on the information feedback design comprises the following steps: if the first priority is lower than the second priority, sending a third ACK message to a third in-building mobile terminal by the first mobile terminal on the first time-frequency resource, wherein when the third ACK message is sent to the third in-building mobile terminal by the first mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send the second ACK message to the second in-building mobile terminal; if the first mobile terminal is judged to be capable of correctly decoding the first intelligent building management message and incapable of correctly decoding the second intelligent building management message, the first mobile terminal sends a second ACK message to the second in-building mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a third NACK message to the third in-building mobile terminal; if the first mobile terminal is judged to be incapable of correctly decoding the first intelligent building management message and capable of correctly decoding the second intelligent building management message, the first mobile terminal sends a third ACK message to the third in-building mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the third ACK message to the third in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a second NACK message to the second in-building mobile terminal; if the first mobile terminal is judged to be incapable of correctly decoding the first intelligent building management message and incapable of correctly decoding the second intelligent building management message, generating a second NACK message aiming at the first intelligent building management message and a third NACK message aiming at the second intelligent building management message by the first mobile terminal, and monitoring a first ACK message or a first NACK message sent by the mobile terminal in the first building by the first mobile terminal on the first time-frequency resource, wherein when the first mobile terminal monitors the first ACK message or the first NACK message sent by the mobile terminal in the first building on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the mobile terminal in the second building on the first time-frequency resource, and the first mobile terminal does not send the third NACK message to the mobile terminal in the third building.

Example 2

In a preferred embodiment, the intelligent building integrated information transmission method designed based on the information feedback comprises the following steps: in response to receiving the mobile terminal control command in the building, sending the mobile terminal control command in the building to the first mobile terminal by the base station; in response to receiving the in-building mobile terminal control command, sending, by the first mobile terminal, a first sidelink control message and the in-building mobile terminal control command to the first in-building mobile terminal, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for sending feedback information; in response to receiving the in-building mobile terminal control command, transmitting, by the first mobile terminal, a fourth sidelink control message and the in-building mobile terminal control command to a fourth in-building mobile terminal, wherein the fourth sidelink control message indicates to the fourth in-building mobile terminal the first time-frequency resource for transmitting feedback information.

Further, the intelligent building comprehensive information transmission method based on the information feedback design comprises the following steps: in response to receiving the first side link control message and the in-building mobile terminal control command, the first in-building mobile terminal judges whether the in-building mobile terminal control command can be correctly decoded; in response to receiving the fourth sidelink control message and the in-building mobile terminal control command, determining, by the fourth in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded; if the mobile terminal in the first building can correctly decode the control command of the mobile terminal in the building, the mobile terminal in the first building sends a first ACK message on the first time-frequency resource; if the mobile terminal in the first building cannot correctly decode the mobile terminal control command in the building, the mobile terminal in the first building sends a first NACK message on the first time-frequency resource; if the fourth building mobile terminal is judged to be capable of correctly decoding the building mobile terminal control command, the fourth building mobile terminal does not send the ACK message on the first time-frequency resource; if the fourth mobile terminal in the building is judged not to be capable of correctly decoding the control command of the mobile terminal in the building, the fourth mobile terminal in the building sends a fourth NACK message on the first time-frequency resource; in response to feedback information that will be received by the first in-building mobile terminal and the fourth in-building mobile terminal on the first time-frequency resource, an attempt is made by the first mobile terminal to listen for a first ACK message or a first NACK message sent by the first in-building mobile terminal, and the first mobile terminal does not attempt to listen for a fourth NACK message sent by the fourth in-building mobile terminal.

Example 3

The invention provides an intelligent building comprehensive information transmission system based on information feedback design, which comprises: a unit for generating a mobile terminal control command in the building by the intelligent building management center server and sending the mobile terminal control command in the building to the base station by the intelligent building management center server; means for transmitting, by the base station, the in-building mobile terminal control command to the first mobile terminal in response to receiving the in-building mobile terminal control command; means for transmitting, by the first mobile terminal, a first sidelink control message to the first in-building mobile terminal in response to receiving the in-building mobile terminal control command, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for transmitting feedback information; means for sending, by a second in-building mobile terminal, a second sidelink control message and a first intelligent building management message to a first mobile terminal, wherein the second sidelink control message indicates to the first mobile terminal a first time-frequency resource for sending feedback information; means for transmitting, by a third in-building mobile terminal, a third sidelink control message and a second intelligent building management message to the first mobile terminal, wherein the third sidelink control message indicates to the first mobile terminal a first time-frequency resource for transmitting feedback information; a unit for judging whether the mobile terminal in the first building can correctly decode the control command of the mobile terminal in the building by the mobile terminal in the first building, and judging whether the first mobile terminal can correctly decode the first intelligent building management message and the second intelligent building management message by the first mobile terminal; means for sending a first ACK message by the first in-building mobile terminal on the first time-frequency resource if it is determined that the first in-building mobile terminal can correctly decode the in-building mobile terminal control command; means for transmitting, by the first in-building mobile terminal, a first NACK message on the first time-frequency resource if it is determined that the first in-building mobile terminal is not capable of correctly decoding the in-building mobile terminal control command.

In the above scheme, the intelligent building integrated information transmission system designed based on information feedback comprises: means for sending a second ACK message by the first mobile terminal to the second in-building mobile terminal on the first time-frequency resource if it is determined that the first mobile terminal can correctly decode the first intelligent building management message, wherein the first mobile terminal does not monitor a first ACK message or a first NACK message sent by the first in-building mobile terminal on the first time-frequency resource when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource;

means for generating, by the first mobile terminal, a second NACK message for the first intelligent building management message if it is determined that the first mobile terminal is unable to correctly decode the first intelligent building management message, and monitoring, by the first mobile terminal, the first ACK message or the first NACK message sent by the mobile terminal within the first building on the first time-frequency resource, wherein, when the first mobile terminal monitors the first ACK message or the first NACK message sent by the mobile terminal within the first building on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the mobile terminal within the second building on the first time-frequency resource; means for determining, by the first mobile terminal, a first priority for feedback for the first intelligent building management message and a second priority for feedback for the second intelligent building management message if the first mobile terminal is determined to be able to correctly decode the first intelligent building management message and the second intelligent building management message, wherein the first priority is indicated in the second sidelink control message, wherein the second priority is indicated in the third sidelink control message; means for transmitting, by the first mobile terminal, a second ACK message to the second in-building mobile terminal on the first time-frequency resource if the first priority is higher than the second priority, wherein when the first mobile terminal transmits the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not listen for the first ACK message or the first NACK message transmitted by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not transmit the third ACK message to the third in-building mobile terminal.

Further, the intelligent building integrated information transmission system based on information feedback design comprises: means for transmitting, by the first mobile terminal, a third ACK message to the third in-building mobile terminal on the first time-frequency resource if the first priority is lower than the second priority, wherein, when the first mobile terminal transmits the third ACK message to the third in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not listen for the first ACK message or the first NACK message transmitted by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not transmit the second ACK message to the second in-building mobile terminal; means for sending, by the first mobile terminal, a second ACK message to the second in-building mobile terminal on the first time-frequency resource if it is determined that the first mobile terminal is capable of correctly decoding the first intelligent building management message and is incapable of correctly decoding the second intelligent building management message, wherein, when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not listen on the first time-frequency resource for the first ACK message or the first NACK message sent by the first in-building mobile terminal, and the first mobile terminal does not send a third NACK message to the third in-building mobile terminal; means for sending, by the first mobile terminal, a third ACK message to the third in-building mobile terminal on the first time-frequency resource if it is determined that the first mobile terminal is not capable of correctly decoding the first intelligent building management message and is capable of correctly decoding the second intelligent building management message, wherein, when the first mobile terminal sends the third ACK message to the third in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send the second NACK message to the second in-building mobile terminal; means for generating, by the first mobile terminal, a second NACK message for the first intelligent building management message and a third NACK message for the second intelligent building management message if it is determined that the first mobile terminal is not able to correctly decode the first intelligent building management message and is not able to correctly decode the second intelligent building management message, and monitoring, by the first mobile terminal, a first ACK message or a first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, wherein, when the first mobile terminal monitors the first ACK message or the first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the second in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send the third NACK message to the third in-building mobile terminal.

Example 4

In a preferred embodiment, the intelligent building integrated information transmission system designed based on information feedback comprises: means for transmitting, by the base station, the in-building mobile terminal control command to the first mobile terminal in response to receiving the in-building mobile terminal control command; means for transmitting, by the first mobile terminal, a first sidelink control message to the first in-building mobile terminal in response to receiving the in-building mobile terminal control command, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for transmitting feedback information; means for transmitting, by the first mobile terminal, a fourth sidelink control message and the in-building mobile terminal control command to a fourth in-building mobile terminal in response to receiving the in-building mobile terminal control command, wherein the fourth sidelink control message indicates to the fourth in-building mobile terminal the first time-frequency resource for transmitting feedback information.

Further, the intelligent building integrated information transmission system based on information feedback design comprises: means for determining, by the first in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded in response to receiving the first sidelink control message and the in-building mobile terminal control command; means for determining, by the fourth in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded in response to receiving the fourth sidelink control message and the in-building mobile terminal control command; means for sending a first ACK message by the first in-building mobile terminal on the first time-frequency resource if it is determined that the first in-building mobile terminal can correctly decode the in-building mobile terminal control command; means for transmitting, by the first in-building mobile terminal, a first NACK message on the first time-frequency resource if it is determined that the first in-building mobile terminal is not capable of correctly decoding the in-building mobile terminal control command; means for transmitting an ACK message to the fourth mobile terminal if it is determined that the fourth mobile terminal can decode the in-building mobile terminal control command correctly; means for transmitting a fourth NACK message by the fourth in-building mobile terminal on the first time-frequency resource if it is determined that the fourth in-building mobile terminal is unable to correctly decode the in-building mobile terminal control command; means for attempting, by the first mobile terminal, to listen to a first ACK message or a first NACK message sent by the first in-building mobile terminal, and not attempting, by the first mobile terminal, to listen to a fourth NACK message sent by the fourth in-building mobile terminal, in response to feedback information for the first in-building mobile terminal and the fourth in-building mobile terminal being to be received on the first time-frequency resource.

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 (10)

1. An intelligent building comprehensive information transmission method based on information feedback design is characterized by comprising the following steps of:

generating a mobile terminal control command in the building by an intelligent building management center server, and sending the mobile terminal control command in the building to a base station by the intelligent building management center server;

in response to receiving the in-building mobile terminal control command, sending, by the base station, the in-building mobile terminal control command to the first mobile terminal;

in response to receiving the in-building mobile terminal control command, sending, by a first mobile terminal, a first sidelink control message and the in-building mobile terminal control command to a first in-building mobile terminal, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for sending feedback information;

sending, by a second in-building mobile terminal, a second sidelink control message and a first intelligent building management message to the first mobile terminal, wherein the second sidelink control message indicates, to the first mobile terminal, a first time-frequency resource for sending feedback information;

sending, by a third in-building mobile terminal, a third sidelink control message and a second intelligent building management message to the first mobile terminal, wherein the third sidelink control message indicates, to the first mobile terminal, a first time-frequency resource for sending feedback information;

judging whether the mobile terminal in the first building can correctly decode the mobile terminal control command in the building by the mobile terminal in the first building, and judging whether the first mobile terminal can correctly decode the first intelligent building management message and the second intelligent building management message by the first mobile terminal;

if the mobile terminal in the first building can correctly decode the mobile terminal control command in the building, the mobile terminal in the first building sends a first ACK message on the first time-frequency resource;

and if the mobile terminal in the first building cannot correctly decode the mobile terminal control command in the building, the mobile terminal in the first building sends a first NACK message on the first time-frequency resource.

2. The intelligent building integrated information transmission method based on information feedback design as claimed in claim 1, wherein the intelligent building integrated information transmission method based on information feedback design comprises the following steps:

if the first mobile terminal is judged to be capable of correctly decoding the first intelligent building management message, the first mobile terminal sends a second ACK message to the second in-building mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor a first ACK message or a first NACK message sent by the first in-building mobile terminal on the first time-frequency resource;

if the first mobile terminal is judged to be incapable of correctly decoding the first intelligent building management message, generating a second NACK message aiming at the first intelligent building management message by the first mobile terminal, and monitoring a first ACK message or a first NACK message sent by a mobile terminal in a first building on the first time-frequency resource by the first mobile terminal, wherein when the first mobile terminal monitors the first ACK message or the first NACK message sent by the mobile terminal in the first building on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the mobile terminal in the second building on the first time-frequency resource;

determining, by the first mobile terminal, a first priority for feeding back for a first intelligent building management message and a second priority for feeding back for a second intelligent building management message if it is determined that the first mobile terminal is capable of correctly decoding the first intelligent building management message and the second intelligent building management message, wherein the first priority is indicated in the second sidelink control message, wherein the second priority is indicated in the third sidelink control message;

and if the first priority is higher than the second priority, sending a second ACK message to the second in-building mobile terminal by the first mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor a first ACK message or a first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a third ACK message to the third in-building mobile terminal.

3. The intelligent building integrated information transmission method based on information feedback design as claimed in claim 2, wherein the intelligent building integrated information transmission method based on information feedback design comprises the following steps:

if the first priority is lower than the second priority, transmitting a third ACK message to the third in-building mobile terminal by the first mobile terminal on the first time-frequency resource, wherein when the third ACK message is transmitted to the third in-building mobile terminal by the first mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor a first ACK message or a first NACK message transmitted by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not transmit a second ACK message to the second in-building mobile terminal;

if the first mobile terminal is judged to be capable of correctly decoding the first intelligent building management message and incapable of correctly decoding the second intelligent building management message, sending a second ACK message to the second in-building mobile terminal by the first mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor a first ACK message or a first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a third NACK message to the third in-building mobile terminal;

if the first mobile terminal is judged to be incapable of correctly decoding the first intelligent building management message and capable of correctly decoding the second intelligent building management message, sending a third ACK message to the third in-building mobile terminal by the first mobile terminal on the first time-frequency resource, wherein when the first mobile terminal sends the third ACK message to the third in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor a first ACK message or a first NACK message sent by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a second NACK message to the second in-building mobile terminal;

if it is determined that the first mobile terminal is not capable of correctly decoding the first intelligent building management message and is not capable of correctly decoding the second intelligent building management message, generating by the first mobile terminal a second NACK message for said first intelligent building management message and a third NACK message for the second intelligent building management message, and listening, by the first mobile terminal, on the first time-frequency resource, for a first ACK message or a first NACK message sent by the first in-building mobile terminal, wherein when the first mobile terminal listens on the first time-frequency resource for a first ACK message or a first NACK message transmitted by a first in-building mobile terminal, the first mobile terminal does not send a second NACK message to the second in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a third NACK message to the third in-building mobile terminal.

4. The intelligent building integrated information transmission method designed based on the information feedback as claimed in claim 3, wherein the intelligent building integrated information transmission method designed based on the information feedback comprises the following steps:

in response to receiving the in-building mobile terminal control command, sending, by the base station, the in-building mobile terminal control command to the first mobile terminal;

in response to receiving the in-building mobile terminal control command, sending, by a first mobile terminal, a first sidelink control message and the in-building mobile terminal control command to a first in-building mobile terminal, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for sending feedback information;

in response to receiving the in-building mobile terminal control command, transmitting, by the first mobile terminal, a fourth sidelink control message and the in-building mobile terminal control command to a fourth in-building mobile terminal, wherein the fourth sidelink control message indicates to the fourth in-building mobile terminal a first time-frequency resource for transmitting feedback information.

5. The intelligent building integrated information transmission method designed based on the information feedback as claimed in claim 4, wherein the intelligent building integrated information transmission method designed based on the information feedback comprises the following steps:

in response to receiving the first sidelink control message and the in-building mobile terminal control command, determining, by the first in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded;

determining, by a fourth in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded in response to receiving the fourth sidelink control message and the in-building mobile terminal control command;

if the mobile terminal in the first building can correctly decode the mobile terminal control command in the building, the mobile terminal in the first building sends a first ACK message on the first time-frequency resource;

if the mobile terminal in the first building cannot correctly decode the mobile terminal control command in the building, the mobile terminal in the first building sends a first NACK message on the first time-frequency resource;

if the fourth mobile terminal in the building is judged to be capable of correctly decoding the control command of the mobile terminal in the building, the fourth mobile terminal in the building does not send an ACK message on the first time-frequency resource;

if the fourth in-building mobile terminal is judged not to be capable of correctly decoding the in-building mobile terminal control command, the fourth in-building mobile terminal sends a fourth NACK message on the first time-frequency resource;

in response to feedback information for the first and fourth in-building mobile terminals being to be received on the first time-frequency resource, attempting, by the first mobile terminal, to listen for a first ACK message or a first NACK message sent by the first in-building mobile terminal, and not attempting, by the first mobile terminal, to listen for a fourth NACK message sent by the fourth in-building mobile terminal.

6. The intelligent building integrated information transmission system designed based on the information feedback is characterized by comprising the following components:

a unit for generating a mobile terminal control command in the building by an intelligent building management center server and sending the mobile terminal control command in the building to a base station by the intelligent building management center server;

means for transmitting, by a base station, the in-building mobile terminal control command to a first mobile terminal in response to receiving the in-building mobile terminal control command;

means for transmitting, by a first mobile terminal to a first in-building mobile terminal, a first sidelink control message and an in-building mobile terminal control command in response to receiving the in-building mobile terminal control command, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for transmitting feedback information;

means for transmitting, by a second in-building mobile terminal, a second sidelink control message and a first intelligent building management message to the first mobile terminal, wherein the second sidelink control message indicates to the first mobile terminal a first time-frequency resource for transmitting feedback information;

means for transmitting, by a third in-building mobile terminal, a third sidelink control message and a second intelligent building management message to the first mobile terminal, wherein the third sidelink control message indicates to the first mobile terminal a first time-frequency resource for transmitting feedback information;

means for determining, by a first in-building mobile terminal, whether the first in-building mobile terminal can correctly decode the in-building mobile terminal control command, and determining, by the first mobile terminal, whether the first mobile terminal can correctly decode the first intelligent building management message and the second intelligent building management message;

means for transmitting a first ACK message by the first in-building mobile terminal on the first time-frequency resource if it is determined that the first in-building mobile terminal can correctly decode the in-building mobile terminal control command;

means for transmitting, by the first in-building mobile terminal, a first NACK message on the first time-frequency resource if it is determined that the first in-building mobile terminal is not able to correctly decode the in-building mobile terminal control command.

7. The intelligent building integrated information transmission system designed based on the information feedback as claimed in claim 6, wherein the intelligent building integrated information transmission system designed based on the information feedback comprises:

means for sending, by a first mobile terminal, a second ACK message to a second in-building mobile terminal on the first time-frequency resource if it is determined that the first mobile terminal can correctly decode the first intelligent building management message, wherein, when the first mobile terminal sends the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not monitor a first ACK message or a first NACK message sent by the first in-building mobile terminal on the first time-frequency resource;

means for generating, by a first mobile terminal, a second NACK message for the first intelligent building management message if it is determined that the first mobile terminal is unable to correctly decode the first intelligent building management message, and monitoring, by the first mobile terminal, a first ACK message or a first NACK message sent by an in-building mobile terminal on the first time-frequency resource, wherein, when the first mobile terminal monitors the first ACK message or the first NACK message sent by the in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not send the second NACK message to the in-building mobile terminal on the first time-frequency resource;

means for determining, by a first mobile terminal, a first priority for feedback for a first intelligent building management message and a second priority for feedback for a second intelligent building management message if it is determined that the first mobile terminal is capable of correctly decoding the first intelligent building management message and the second intelligent building management message, wherein the first priority is indicated in the second sidelink control message, wherein the second priority is indicated in the third sidelink control message;

means for transmitting, by a first mobile terminal, a second ACK message to a second in-building mobile terminal on the first time-frequency resource if the first priority is higher than the second priority, wherein when the first mobile terminal transmits the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not listen for a first ACK message or a first NACK message transmitted by the first in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not transmit a third ACK message to the third in-building mobile terminal.

8. The intelligent building integrated information transmission system designed based on the information feedback as claimed in claim 7, wherein the intelligent building integrated information transmission system designed based on the information feedback comprises:

means for transmitting, by a first mobile terminal, a third ACK message to a third in-building mobile terminal on the first time-frequency resource if the first priority is lower than the second priority, wherein the first mobile terminal does not listen on the first time-frequency resource for a first ACK message or a first NACK message transmitted by the first in-building mobile terminal and the first mobile terminal does not transmit a second ACK message to the second in-building mobile terminal when the first mobile terminal transmits the third ACK message to the third in-building mobile terminal on the first time-frequency resource;

means for transmitting, by a first mobile terminal, a second ACK message to a second in-building mobile terminal on the first time-frequency resource if it is determined that the first mobile terminal is capable of correctly decoding the first intelligent building management message and is incapable of correctly decoding the second intelligent building management message, wherein, when the first mobile terminal transmits the second ACK message to the second in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not listen on the first time-frequency resource for the first ACK message or the first NACK message transmitted by the first in-building mobile terminal, and the first mobile terminal does not transmit a third NACK message to the third in-building mobile terminal;

means for transmitting, by a first mobile terminal, a third ACK message to a third in-building mobile terminal on the first time-frequency resource if it is determined that the first mobile terminal is not capable of correctly decoding the first intelligent building management message and is capable of correctly decoding the second intelligent building management message, wherein, when the first mobile terminal transmits the third ACK message to the third in-building mobile terminal on the first time-frequency resource, the first mobile terminal does not listen on the first time-frequency resource for the first ACK message or the first NACK message transmitted by the first in-building mobile terminal and the first mobile terminal does not transmit to the second in-building mobile terminal;

for determining if the first mobile terminal is not capable of correctly decoding the first intelligent building management message and is not capable of correctly decoding the second intelligent building management message, generating by the first mobile terminal a second NACK message for said first intelligent building management message and a third NACK message for the second intelligent building management message, and means for monitoring, by the first mobile terminal, on the first time-frequency resource, for a first ACK message or a first NACK message transmitted by the mobile terminals in the first building, wherein when the first mobile terminal listens on the first time-frequency resource for a first ACK message or a first NACK message transmitted by a first in-building mobile terminal, the first mobile terminal does not send a second NACK message to the second in-building mobile terminal on the first time-frequency resource, and the first mobile terminal does not send a third NACK message to the third in-building mobile terminal.

9. The intelligent building integrated information transmission system designed based on the information feedback as claimed in claim 8, wherein the intelligent building integrated information transmission system designed based on the information feedback comprises:

means for transmitting, by a base station, the in-building mobile terminal control command to a first mobile terminal in response to receiving the in-building mobile terminal control command;

means for transmitting, by a first mobile terminal to a first in-building mobile terminal, a first sidelink control message and an in-building mobile terminal control command in response to receiving the in-building mobile terminal control command, wherein the first sidelink control message indicates to the first in-building mobile terminal a first time-frequency resource for transmitting feedback information;

means for transmitting, by a first mobile terminal to a fourth in-building mobile terminal, a fourth sidelink control message and an in-building mobile terminal control command in response to receiving the in-building mobile terminal control command, wherein the fourth sidelink control message indicates to the fourth in-building mobile terminal a first time-frequency resource for transmitting feedback information.

10. The intelligent building integrated information transmission system designed based on the information feedback as claimed in claim 9, wherein the intelligent building integrated information transmission system designed based on the information feedback comprises:

means for determining, by a first in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded in response to receiving the first sidelink control message and the in-building mobile terminal control command;

means for determining, by a fourth in-building mobile terminal, whether the in-building mobile terminal control command can be correctly decoded in response to receiving the fourth sidelink control message and the in-building mobile terminal control command;

means for transmitting a first ACK message by the first in-building mobile terminal on the first time-frequency resource if it is determined that the first in-building mobile terminal can correctly decode the in-building mobile terminal control command;

means for transmitting, by the first in-building mobile terminal, a first NACK message on the first time-frequency resource if it is determined that the first in-building mobile terminal is not able to correctly decode the in-building mobile terminal control command;

means for transmitting an ACK message to the fourth mobile terminal if it is determined that the fourth mobile terminal can decode the in-building mobile terminal control command correctly;

means for transmitting, by a fourth in-building mobile terminal, a fourth NACK message on the first time-frequency resource if it is determined that the fourth in-building mobile terminal is not capable of correctly decoding the in-building mobile terminal control command;

means for attempting, by the first mobile terminal, to listen to a first ACK message or a first NACK message sent by the first in-building mobile terminal and not attempting, by the first mobile terminal, to listen to a fourth NACK message sent by a fourth in-building mobile terminal in response to feedback information for the first and fourth in-building mobile terminals being to be received on the first time-frequency resource.

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