CN111432437B - Method and system for quickly transmitting user sign information - Google Patents

Abstract

The invention provides a method for quickly transmitting user sign information, which comprises the following steps: collecting user sign information by the smart bracelet; receiving, by the smart bracelet, necessary system information broadcast by a base station; establishing an RRC connection with a base station by the smart band in response to receiving necessary system information; in response to establishing an RRC connection with a base station, sending a system information request to the base station by the smart band; in response to receiving a system information request, sending other system information to the smart band by a base station; in response to receiving other system information, determining, by the smart band, a transmission mode indicated in a transmission mode configuration message; if the transmission mode indicated in the transmission mode configuration message is judged to be the first transmission mode, the intelligent bracelet sends a scheduling request message to the base station; in response to receiving a scheduling request message, sending, by a base station, a first uplink grant to the smart band.

Description

Method and system for quickly transmitting user sign information

Technical Field

The invention relates to the technical field of intelligent sports health, in particular to a method and a system for quickly transmitting user sign information.

Background

The intelligent bracelet is a wearable intelligent device. Through intelligent bracelet, the user can take notes real-time data such as exercise, sleep, part still have diet among the daily life to with these data and cell-phone, flat board, ipod touch synchronous, play the effect of guiding healthy life through data.

Prior art CN110570625A discloses a safety reminding method of an intelligent wearable device, where the intelligent wearable device includes an acceleration sensor, and includes the following steps: the intelligent wearable device acquires acceleration data through the acceleration sensor when detecting that the intelligent wearable device is at night; comparing the acceleration data with a preset acceleration noise threshold value, and re-determining new acceleration data according to a comparison result; calculating the activity frequency of the user according to the new acceleration data; and controlling the intelligent wearable equipment to flash a screen at the activity frequency so as to carry out safety reminding.

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

Disclosure of Invention

The invention aims to provide a method and a system for quickly transmitting user sign information, thereby overcoming the defects of the prior art.

The invention provides a method for quickly transmitting user sign information, which comprises the following steps: collecting user sign information by the smart bracelet; receiving, by the smart band, necessary system information broadcasted by a base station, wherein the necessary system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a system information identifier, information for performing intra-frequency handover, a transmission mode configuration message, and information for performing inter-frequency handover; establishing RRC connection with a base station by the smart band in response to receiving the necessary system information; responding to the RRC connection established with the base station, and sending a system information request to the base station by the intelligent bracelet; responding to a received system information request, and sending other system information to the intelligent bracelet by a base station, wherein the other system information is system information which is not included in necessary system information; in response to receiving other system information, determining, by the smart band, a transmission mode indicated in a transmission mode configuration message; if the transmission mode indicated in the transmission mode configuration message is judged to be the first transmission mode, the intelligent bracelet sends a scheduling request message to the base station; in response to receiving the scheduling request message, sending, by the base station, a first uplink grant to the smart band, wherein the first uplink grant includes an indication of first uplink resources for uplink transmission by the smart band; in response to receiving a first uplink grant, sending, by the smart band, a buffer status report and a portion of the collected user vital sign information to a base station on a first uplink resource; in response to receiving a buffer status report sent by the smart band, generating, by the base station, a second uplink grant based on the buffer status report and sending, by the base station, the second uplink grant to the smart band; in response to receiving a second uplink grant, the smart band sending remaining user sign information to the base station on uplink resources indicated by the second uplink grant; and responding to the received user sign information, and sending the user sign information to the user health center server by the base station.

Preferably, in the above technical solution, the method for quickly transmitting user physical sign information includes the following steps: if the transmission mode indicated in the transmission mode configuration message is judged to be the second transmission mode, the intelligent bracelet sends a scheduling request message to the base station; in response to receiving the scheduling request message, generating, by the base station, a third uplink grant and transmitting the third uplink grant to the smart band, wherein the third uplink grant includes an indication of a second uplink resource for uplink transmission by the smart band, wherein the second uplink resource includes more time-frequency resources than the first uplink resource, and wherein the base station also receives scheduling request messages transmitted by other mobile terminals while receiving the scheduling request message transmitted by the smart band; and sending a third uplink authorization to other mobile terminals by the base station while sending the third uplink authorization to the intelligent bracelet.

Preferably, in the above technical solution, the method for quickly transmitting user sign information includes the following steps: in response to receiving a third uplink grant, sending, by the smart band, all collected user sign information to a base station on a second uplink resource; transmitting, by the other mobile terminal, information to the base station on the second uplink resource in response to receiving the third uplink grant; if the base station receives the information sent by other mobile terminals, the base station sends a negative confirmation message to the intelligent bracelet; in response to receiving a negative acknowledgement message, the intelligent bracelet sends a second scheduling request to the base station again, wherein the second scheduling request indicates that the intelligent bracelet has received the negative acknowledgement message; in response to receiving the second scheduling request, sending, by the base station, a fourth uplink grant to the smart band, wherein the fourth uplink grant includes an indication of third uplink resources used by the smart band for uplink transmission, wherein the third uplink resources in the fourth uplink grant are dedicated to the smart band, wherein the third uplink resources include more time-frequency resources than the first uplink resources; in response to receiving a fourth uplink grant, sending, by the smart band, all collected user sign information to a base station on a third uplink resource; and responding to the received user sign information, and sending the user sign information to the user health center server by the base station.

Preferably, in the above technical solution, the method for quickly transmitting user sign information includes the following steps: judging whether the necessary system information changes or not by the base station; if the necessary system information is judged to be changed, generating new necessary system information by the base station, wherein the new necessary system information at least comprises downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a new system information identifier, information for performing intra-frequency handover, transmission mode configuration information and information for performing inter-frequency handover, and the new system information identifier is different from the system information identifier; in response to receiving the new necessary system information, the intelligent bracelet judges whether a new system information identifier is included in the new necessary system information; if the received necessary system information comprises a new system information identifier, the intelligent bracelet breaks RRC connection with the base station and reestablishes RRC connection with the base station based on the new necessary system information; responding to the RRC connection established with the base station, and sending a system information request to the base station by the intelligent bracelet; responding to a system information request received, and sending other system information to the intelligent bracelet by a base station, wherein the other system information is system information which is not included in necessary system information; in response to receiving other system information, determining, by the smart band, a transmission mode indicated in a transmission mode configuration message; if the transmission mode indicated in the transmission mode configuration message is judged to be the first transmission mode, the intelligent bracelet sends a scheduling request message to the base station; in response to receiving the scheduling request message, sending, by the base station, a first uplink grant to the smart band, wherein the first uplink grant includes an indication of first uplink resources used by the smart band for uplink transmission; in response to receiving a first uplink grant, sending, by the smart band, a buffer status report and a portion of the collected user sign information to a base station on a first uplink resource; in response to receiving a buffer status report sent by the smart band, generating, by the base station, a second uplink grant based on the buffer status report, and sending, by the base station, the second uplink grant to the smart band; in response to receiving a second uplink grant, the smart band sending remaining user sign information to the base station on uplink resources indicated by the second uplink grant; and responding to the received user physical sign information, and sending the user physical sign information to the user health center server by the base station.

Preferably, in the above technical solution, the method for quickly transmitting user physical sign information includes the following steps: judging whether other system information changes or not by the base station; if the other system information is judged to be changed, the base station broadcasts the changed other system information; in response to receiving the other system information being broadcast, updating, by the smart band, the system information saved by the smart band based on the other system information received; responding to the system information stored in the intelligent bracelet, and sending a scheduling request message to a base station by the intelligent bracelet based on the updated system information; in response to receiving the scheduling request message, sending, by the base station, a first uplink grant to the smart band, wherein the first uplink grant includes an indication of first uplink resources used by the smart band for uplink transmission; in response to receiving a first uplink grant, sending, by the smart band, a buffer status report and a portion of the collected user sign information to a base station on a first uplink resource; in response to receiving a buffer status report sent by the smart band, generating, by the base station, a second uplink grant based on the buffer status report, and sending, by the base station, the second uplink grant to the smart band; in response to receiving a second uplink grant, the smart band sending remaining user sign information to the base station on uplink resources indicated by the second uplink grant; and responding to the received user physical sign information, and sending the user physical sign information to the user health center server by the base station.

The invention also provides a system for rapidly transmitting the user sign information, which comprises the following components: means for collecting user sign information by the smart bracelet; means for receiving, by the smart band, necessary system information broadcasted by a base station, wherein the necessary system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a system information identifier, information for performing intra-frequency handover, transmission mode configuration messages, and information for performing inter-frequency handover; means for establishing, by the smart band, an RRC connection with a base station in response to receiving the necessary system information; means for sending, by the smart band, a system information request to a base station in response to establishing an RRC connection with the base station; means for transmitting, by a base station, other system information to the smart band in response to receiving a system information request, wherein the other system information is system information that is not included in the necessary system information; means for determining, by the smart band, a transmission mode indicated in a transmission mode configuration message in response to receiving other system information; means for sending, by the smart band, a scheduling request message to a base station if it is determined that the transmission mode indicated in the transmission mode configuration message is the first transmission mode; means for transmitting, by a base station, a first uplink grant to the smart band in response to receiving a scheduling request message, wherein the first uplink grant includes an indication of first uplink resources for uplink transmission by the smart band; means for transmitting, by the smart band, a buffer status report and a portion of the collected user vital sign information to a base station on a first uplink resource in response to receiving a first uplink grant; means for generating, by the base station, a second uplink grant based on the buffer status report in response to receiving the buffer status report sent by the smart band, and sending, by the base station, the second uplink grant to the smart band, and for sending, by the smart band, remaining user sign information to the base station on uplink resources indicated by the second uplink grant in response to receiving the second uplink grant; and the base station is used for responding to the received user physical sign information and sending the user physical sign information to the user health center server.

Preferably, in the above technical solution, the system for quickly transmitting user physical sign information includes: means for sending, by the smart band, a scheduling request message to a base station if it is determined that the transmission mode indicated in the transmission mode configuration message is the second transmission mode; means for generating, by a base station and transmitting a third uplink grant to the smart band in response to receiving a scheduling request message, wherein the third uplink grant includes an indication of a second uplink resource for uplink transmission by the smart band, wherein the second uplink resource includes more time-frequency resources than the first uplink resource, and wherein the base station also receives scheduling request messages transmitted by other mobile terminals while receiving the scheduling request message transmitted by the smart band; means for transmitting, by a base station, a third uplink grant to other mobile terminals while transmitting the third uplink grant to the smart band.

Preferably, in the above technical solution, the system for quickly transmitting user sign information includes: means for transmitting, by the smart band, all collected user sign information to a base station on a second uplink resource in response to receiving a third uplink grant; means for transmitting, by the other mobile terminal, information to the base station on the second uplink resource in response to receiving the third uplink grant; a unit for transmitting a negative acknowledgement message to the smart band by the base station if the base station receives information transmitted by other mobile terminals; means for sending, by the smart bracelet to the base station, a second scheduling request again in response to receiving a negative acknowledgement message, wherein the second scheduling request indicates that the smart bracelet has received the negative acknowledgement message; means for transmitting, by the base station, a fourth uplink grant to the smart band in response to receiving the second scheduling request, wherein the fourth uplink grant includes an indication of a third uplink resource used by the smart band for uplink transmission, wherein the third uplink resource in the fourth uplink grant is dedicated to the smart band, wherein the third uplink resource includes more time-frequency resources than the first uplink resource; means for transmitting, by the smart bracelet, all collected user sign information to a base station on a third uplink resource in response to receiving a fourth uplink grant; and the base station is used for responding to the received user physical sign information and sending the user physical sign information to the user health center server.

Preferably, in the above technical solution, the system for quickly transmitting user sign information includes: means for determining, by a base station, whether necessary system information has changed; means for generating new essential system information by the base station if it is determined that the essential system information has changed, wherein the new essential system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a new system information identifier, information for performing intra-frequency handover, a transmission mode configuration message, and information for performing inter-frequency handover, wherein the new system information identifier is different from the system information identifier; means for determining, by the smart bracelet, whether new essential system information includes a new system information identifier in response to receiving the new essential system information; a unit for disconnecting the RRC connection with the base station by the smart band and reestablishing the RRC connection with the base station based on the new necessary system information if it is determined that the received necessary system information includes the new system information identifier; means for sending, by the smart bracelet, a system information request to a base station in response to establishing an RRC connection with the base station; means for transmitting, by a base station, other system information to the smart bracelet in response to receiving a system information request, wherein the other system information is system information that is not included in the necessary system information; means for determining, by the smart band, a transmission mode indicated in a transmission mode configuration message in response to receiving other system information; means for sending, by the smart band, a scheduling request message to a base station if it is determined that the transmission mode indicated in the transmission mode configuration message is the first transmission mode; means for transmitting, by a base station, a first uplink grant to the smart band in response to receiving a scheduling request message, wherein the first uplink grant includes an indication of first uplink resources used by the smart band for uplink transmissions; means for transmitting, by the smart band, a buffer status report and a portion of the collected user sign information to a base station on a first uplink resource in response to receiving a first uplink grant; means for generating, by the base station, a second uplink grant based on the buffer status report in response to receiving the buffer status report sent by the smart band, and sending, by the base station, the second uplink grant to the smart band; means for transmitting, by the smart band, remaining user sign information to a base station on uplink resources indicated by a second uplink grant in response to receiving the second uplink grant; and the base station is used for responding to the received user physical sign information and sending the user physical sign information to the user health center server.

Preferably, in the above technical solution, the system for quickly transmitting user sign information includes: means for determining, by the base station, whether other system information has changed; a unit for broadcasting, by the base station, the other system information after the change if it is determined that the other system information has changed; means for updating, by the smart bracelet and in response to receiving the other system information that is broadcast, system information saved by the smart bracelet based on the other system information received; the unit is used for responding to the system information stored by the intelligent bracelet, and the intelligent bracelet sends a scheduling request message to a base station based on the updated system information; means for transmitting, by a base station, a first uplink grant to the smart band in response to receiving a scheduling request message, wherein the first uplink grant includes an indication of first uplink resources used by the smart band for uplink transmissions; means for transmitting, by the smart band, a buffer status report and a portion of the collected user vital sign information to a base station on a first uplink resource in response to receiving a first uplink grant; means for generating, by the base station, a second uplink grant based on the buffer status report in response to receiving the buffer status report sent by the smart band, and sending, by the base station, the second uplink grant to the smart band; means for transmitting, by the smart band, remaining user sign information to a base station on uplink resources indicated by a second uplink grant in response to receiving the second uplink grant; and the base station is used for responding to the received user physical sign information and sending the user physical sign information to the user health center server.

Compared with the prior art, the invention has the following beneficial effects: there are many types of intelligent sports health products, and many companies have also filed a large number of patents (including design patents, utility models, and invention patents) related to sports health products, such as the knoop corporation. Aiming at the current patent layout situation, it is difficult for the original company to hope to enter the field of the intelligent bracelet again, and the main difficulty is shown as follows: if the hardware needs to be improved, the hardware design of the intelligent bracelet is mature, the bracelet chip cannot be improved to a greater extent without investing a large amount of capital, and a plurality of basic patents exist in the hardware field, and form a barrier for a pioneer company to enter the field; if the bracelet appearance is improved, the improvement cannot obtain higher profit, and moreover, the bracelet appearance design patents are very numerous, and the space for improving the design is not large. The invention provides a method and a system for rapidly transmitting user sign information, which can further improve the prior art, and belongs to the field of intelligent bracelet transmission methods and transmission systems with not too high technical barriers.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a flowchart of a method for fast transmitting user sign information according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited by the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Fig. 1 is a flowchart of a method for fast transmitting user sign information according to an embodiment of the present invention. As shown in the figure, the method of the present invention comprises the steps of:

step 101: collecting user sign information by the smart bracelet; the user sign information includes all information related to the user's motion, and may include, for example, the user's heartbeat, blood oxygen concentration, blood pressure, stride frequency, foot-to-ground contact, and the like.

Step 102: receiving, by the smart band, necessary system information broadcasted by a base station, wherein the necessary system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a system information identifier, information for performing intra-frequency handover, a transmission mode configuration message, and information for performing inter-frequency handover;

step 103: establishing an RRC connection with a base station by the smart band in response to receiving necessary system information;

step 104: in response to establishing an RRC connection with a base station, sending a system information request to the base station by the smart band;

step 105: responding to a system information request received, and sending other system information to the intelligent bracelet by a base station, wherein the other system information is system information which is not included in necessary system information;

step 106: in response to receiving other system information, determining, by the smart band, a transmission mode indicated in a transmission mode configuration message;

step 107: if the transmission mode indicated in the transmission mode configuration message is judged to be the first transmission mode, the intelligent bracelet sends a scheduling request message to the base station;

step 108: in response to receiving the scheduling request message, sending, by the base station, a first uplink grant to the smart band, wherein the first uplink grant includes an indication of first uplink resources for uplink transmission by the smart band;

step 109: in response to receiving a first uplink grant, sending, by the smart band, a buffer status report and a portion of the collected user vital sign information to a base station on a first uplink resource;

step 110: in response to receiving a buffer status report sent by the smart band, generating, by the base station, a second uplink grant based on the buffer status report, and sending, by the base station, the second uplink grant to the smart band;

step 111: in response to receiving a second uplink grant, the smart band sending remaining user sign information to the base station on uplink resources indicated by the second uplink grant;

step 112: and responding to the received user physical sign information, and sending the user physical sign information to the user health center server by the base station. And the user health center server can store and analyze the user data after receiving the user sign information.

Preferably, in the above technical solution, the method for quickly transmitting user sign information includes the following steps: if the transmission mode indicated in the transmission mode configuration message is judged to be the second transmission mode, the intelligent bracelet sends a scheduling request message to the base station; in response to receiving the scheduling request message, generating, by the base station, a third uplink grant and transmitting the third uplink grant to the smart band, wherein the third uplink grant includes an indication of a second uplink resource for uplink transmission by the smart band, wherein the second uplink resource includes more time-frequency resources than the first uplink resource, and wherein the base station also receives scheduling request messages transmitted by other mobile terminals while receiving the scheduling request message transmitted by the smart band; and sending a third uplink authorization to other mobile terminals by the base station while sending the third uplink authorization to the intelligent bracelet.

Preferably, in the above technical solution, the method for quickly transmitting user sign information includes the following steps: in response to receiving a third uplink grant, sending, by the smart band, all collected user sign information to a base station on a second uplink resource; transmitting, by the other mobile terminal, information to the base station on the second uplink resource in response to receiving the third uplink grant; if the base station receives information sent by other mobile terminals, the base station sends a negative confirmation message to the intelligent bracelet; in response to receiving the negative acknowledgement message, the intelligent bracelet sends a second scheduling request to the base station again, wherein the second scheduling request indicates that the intelligent bracelet has received the negative acknowledgement message; in response to receiving the second scheduling request, sending, by the base station, a fourth uplink grant to the smart band, wherein the fourth uplink grant includes an indication of third uplink resources used by the smart band for uplink transmission, wherein the third uplink resources in the fourth uplink grant are dedicated to the smart band, wherein the third uplink resources include more time-frequency resources than the first uplink resources; in response to receiving a fourth uplink grant, sending, by the smart band, all collected user sign information to a base station on a third uplink resource; and responding to the received user sign information, and sending the user sign information to the user health center server by the base station.

Preferably, in the above technical solution, the method for quickly transmitting user physical sign information includes the following steps: judging whether the necessary system information changes or not by the base station; if the necessary system information is judged to be changed, generating new necessary system information by the base station, wherein the new necessary system information at least comprises downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access prohibition information, a new system information identifier, information for performing intra-frequency handover, transmission mode configuration information and information for performing inter-frequency handover, and the new system information identifier is different from the system information identifier; in response to receiving the new necessary system information, the intelligent bracelet judges whether a new system information identifier is included in the new necessary system information; if the received necessary system information comprises a new system information identifier, the intelligent bracelet breaks RRC connection with the base station and reestablishes RRC connection with the base station based on the new necessary system information; responding to the RRC connection established with the base station, and sending a system information request to the base station by the intelligent bracelet; responding to a system information request received, and sending other system information to the intelligent bracelet by a base station, wherein the other system information is system information which is not included in necessary system information; in response to receiving other system information, determining, by the smart band, a transmission mode indicated in a transmission mode configuration message; if the transmission mode indicated in the transmission mode configuration message is judged to be the first transmission mode, the intelligent bracelet sends a scheduling request message to the base station; in response to receiving the scheduling request message, sending, by the base station, a first uplink grant to the smart band, wherein the first uplink grant includes an indication of first uplink resources used by the smart band for uplink transmission; in response to receiving a first uplink grant, sending, by the smart band, a buffer status report and a portion of the collected user vital sign information to a base station on a first uplink resource; in response to receiving a buffer status report sent by the smart band, generating, by the base station, a second uplink grant based on the buffer status report, and sending, by the base station, the second uplink grant to the smart band; and in response to receiving the second uplink authorization, the intelligent bracelet sends the remaining user sign information to the base station on the uplink resource indicated by the second uplink authorization, and in response to receiving the user sign information, the base station sends the user sign information to the user health center server.

Preferably, in the above technical solution, the method for quickly transmitting user sign information includes the following steps: judging whether other system information changes by the base station; if the other system information is judged to be changed, the base station broadcasts the changed other system information; in response to receiving the other system information being broadcast, updating, by the smart band, the system information saved by the smart band based on the other system information received; responding to the system information stored in the intelligent bracelet, and sending a scheduling request message to a base station by the intelligent bracelet based on the updated system information; in response to receiving the scheduling request message, sending, by the base station, a first uplink grant to the smart band, wherein the first uplink grant includes an indication of first uplink resources used by the smart band for uplink transmission; in response to receiving a first uplink grant, sending, by the smart band, a buffer status report and a portion of the collected user sign information to a base station on a first uplink resource; in response to receiving a buffer status report sent by the smart band, generating, by the base station, a second uplink grant based on the buffer status report and sending, by the base station, the second uplink grant to the smart band; in response to receiving a second uplink grant, the smart band sending remaining user sign information to the base station on uplink resources indicated by the second uplink grant; and responding to the received user sign information, and sending the user sign information to the user health center server by the base station.

The invention also provides a system for rapidly transmitting the user sign information, which comprises the following components: a unit for collecting user sign information by the smart bracelet; means for receiving, by the smart band, necessary system information broadcasted by a base station, wherein the necessary system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a system information identifier, information for performing intra-frequency handover, transmission mode configuration messages, and information for performing inter-frequency handover; means for establishing, by the smart band, an RRC connection with a base station in response to receiving necessary system information; means for sending, by the smart bracelet, a system information request to a base station in response to establishing an RRC connection with the base station; means for transmitting, by a base station, other system information to the smart bracelet in response to receiving a system information request, wherein the other system information is system information that is not included in the necessary system information; means for determining, by the smart band, a transmission mode indicated in a transmission mode configuration message in response to receiving other system information; means for sending, by the smart band, a scheduling request message to a base station if it is determined that the transmission mode indicated in the transmission mode configuration message is the first transmission mode; means for transmitting, by a base station, a first uplink grant to the smart band in response to receiving a scheduling request message, wherein the first uplink grant includes an indication of first uplink resources for uplink transmission by the smart band; means for transmitting, by the smart band, a buffer status report and a portion of the collected user vital sign information to a base station on a first uplink resource in response to receiving a first uplink grant; means for generating, by the base station, a second uplink grant based on the buffer status report in response to receiving the buffer status report sent by the smart band, and sending, by the base station, the second uplink grant to the smart band; means for transmitting, by the smart band, remaining user sign information to a base station on uplink resources indicated by a second uplink grant in response to receiving the second uplink grant; and the base station is used for responding to the received user physical sign information and sending the user physical sign information to the user health center server.

Preferably, in the above technical solution, the system for quickly transmitting user physical sign information includes: means for sending, by the smart band, a scheduling request message to a base station if it is determined that the transmission mode indicated in the transmission mode configuration message is the second transmission mode; means for generating, by a base station and transmitting a third uplink grant to the smart band in response to receiving a scheduling request message, wherein the third uplink grant includes an indication of a second uplink resource for uplink transmission by the smart band, wherein the second uplink resource includes more time-frequency resources than the first uplink resource, and wherein the base station also receives scheduling request messages transmitted by other mobile terminals while receiving the scheduling request message transmitted by the smart band; means for transmitting, by a base station, a third uplink grant to other mobile terminals while transmitting the third uplink grant to the smart band.

Preferably, in the above technical solution, the system for quickly transmitting user sign information includes: means for transmitting, by the smart band, all collected user sign information to a base station on a second uplink resource in response to receiving a third uplink grant; means for transmitting, by the other mobile terminal, information to the base station on the second uplink resource in response to receiving the third uplink grant; means for sending, by the base station, a negative acknowledgement message to the smart band if the base station receives information sent by other mobile terminals; means for sending, by the smart bracelet to the base station, a second scheduling request again in response to receiving a negative acknowledgement message, wherein the second scheduling request indicates that the smart bracelet has received the negative acknowledgement message; means for transmitting, by the base station, a fourth uplink grant to the smart band in response to receiving the second scheduling request, wherein the fourth uplink grant includes an indication of a third uplink resource used by the smart band for uplink transmission, wherein the third uplink resource in the fourth uplink grant is dedicated to the smart band, wherein the third uplink resource includes more time-frequency resources than the first uplink resource for transmitting, by the smart band, all of the collected user sign information to the base station on the third uplink resource in response to receiving the fourth uplink grant; and the base station is used for responding to the received user physical sign information and sending the user physical sign information to the user health center server.

Preferably, in the above technical solution, the system for quickly transmitting user sign information includes: means for determining, by a base station, whether necessary system information has changed; means for generating new necessary system information by the base station if it is determined that the necessary system information changes, wherein the new necessary system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a new system information identifier, information for performing intra-frequency handover, a transmission mode configuration message, and information for performing inter-frequency handover, wherein the new system information identifier is different from the system information identifier; means for determining, by the smart bracelet, whether new essential system information includes a new system information identifier in response to receiving the new essential system information; a unit for disconnecting the RRC connection with the base station by the smart band if it is determined that the received necessary system information includes the new system information identifier, and reestablishing the RRC connection with the base station based on the new necessary system information, in response to establishing the RRC connection with the base station, the smart band sending a system information request to the base station; means for transmitting, by a base station, other system information to the smart bracelet in response to receiving a system information request, wherein the other system information is system information that is not included in the necessary system information; means for determining, by the smart band, a transmission mode indicated in a transmission mode configuration message in response to receiving other system information; means for sending, by the smart band, a scheduling request message to a base station if it is determined that the transmission mode indicated in the transmission mode configuration message is the first transmission mode; means for transmitting, by a base station, a first uplink grant to the smart band in response to receiving a scheduling request message, wherein the first uplink grant includes an indication of first uplink resources used by the smart band for uplink transmissions; means for transmitting, by the smart band, a buffer status report and a portion of the collected user vital sign information to a base station on a first uplink resource in response to receiving a first uplink grant; means for generating, by the base station, a second uplink grant based on the buffer status report in response to receiving the buffer status report sent by the smart band, and sending, by the base station, the second uplink grant to the smart band; means for transmitting, by the smart band, remaining user sign information to a base station on uplink resources indicated by a second uplink grant in response to receiving the second uplink grant; and the base station is used for responding to the received user physical sign information and sending the user physical sign information to the user health center server.

Preferably, in the above technical solution, the system for quickly transmitting user physical sign information includes: means for determining, by the base station, whether other system information has changed; a unit for broadcasting, by the base station, the other system information after the change if it is determined that the other system information has changed; means for updating, by the smart band, the system information saved by the smart band based on the received other system information in response to receiving the broadcasted other system information; the unit is used for responding to the system information stored by the intelligent bracelet, and the intelligent bracelet sends a scheduling request message to a base station based on the updated system information; means for transmitting, by a base station, a first uplink grant to the smart band in response to receiving a scheduling request message, wherein the first uplink grant includes an indication of first uplink resources used by the smart band for uplink transmissions; means for transmitting, by the smart band, a buffer status report and a portion of the collected user vital sign information to a base station on a first uplink resource in response to receiving a first uplink grant; means for generating, by the base station, a second uplink grant based on the buffer status report in response to receiving the buffer status report sent by the smart band, and sending, by the base station, the second uplink grant to the smart band; means for transmitting, by the smart band, remaining user sign information to a base station on uplink resources indicated by a second uplink grant in response to receiving the second uplink grant; and the base station is used for responding to the received user physical sign information and sending the user physical sign information to the user health center server.

The following explanation can be made for understanding of necessary system information. In general, MIB, SIB1, SIB2, and SIB14 may be considered as necessary system information required for initial access. Wherein the MIB contains the most basic and frequently transmitted parameters, SIB1 includes PLMN ID, cell ID, scheduling of systemlnfovaluetag and other system information, SIB2 contains radio configuration information (e.g. RACH).

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 above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (2)

1. A method for quickly transmitting user physical sign information is characterized in that,

the method for rapidly transmitting the user sign information comprises the following steps:

collecting user sign information by the intelligent bracelet;

receiving, by the smart band, necessary system information broadcasted by a base station, wherein the necessary system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a system information identifier, information for performing intra-frequency handover, a transmission mode configuration message, and information for performing inter-frequency handover; establishing, by the smart band, an RRC connection with the base station in response to receiving the necessary system information;

responding to the establishment of RRC connection with the base station, and sending a system information request to the base station by the intelligent hand ring;

in response to receiving the system information request, sending other system information to the smart band by a base station, wherein the other system information is system information that is not included in the necessary system information;

in response to receiving the other system information, determining, by the smart band, a transmission mode indicated in the transmission mode configuration message;

if the transmission mode indicated in the transmission mode configuration message is judged to be the first transmission mode, the intelligent hand ring sends a scheduling request message to the base station;

in response to receiving the scheduling request message, sending, by a base station, a first uplink grant to the smart band, wherein the first uplink grant includes an indication of first uplink resources for uplink transmission by the smart band;

in response to receiving the first uplink grant, sending, by the smart band, a buffer status report and a portion of the collected user vital sign information to the base station on the first uplink resource;

in response to receiving a buffer status report sent by the smart band, generating, by the base station, a second uplink grant based on the buffer status report, and sending, by the base station, the second uplink grant to the smart band;

in response to receiving the second uplink grant, sending, by the smart band, remaining user sign information to the base station on uplink resources indicated by the second uplink grant;

responding to the received user physical sign information, sending the user physical sign information to a user health center server by a base station,

if the transmission mode indicated in the transmission mode configuration message is judged to be the second transmission mode, the intelligent hand ring sends a scheduling request message to the base station;

in response to receiving the scheduling request message, generating, by a base station, a third uplink grant and transmitting the third uplink grant to the smart band, wherein the third uplink grant includes an indication of a second uplink resource for uplink transmission by the smart band, wherein the second uplink resource includes more time-frequency resources than the first uplink resource, and wherein the base station also receives scheduling request messages transmitted by other mobile terminals while receiving the scheduling request message transmitted by the smart band;

transmitting, by a base station, a third uplink grant to the other mobile terminal while transmitting the third uplink grant to the smart band,

in response to receiving the third uplink grant, sending, by the smart band, all collected user vital sign information to the base station on the second uplink resource;

transmitting, by the other mobile terminal, information to the base station on the second uplink resource in response to receiving the third uplink grant;

if the base station receives the information sent by other mobile terminals, the base station sends a negative confirmation message to the intelligent bracelet;

in response to receiving the negative acknowledgement message, the smart band sending a second scheduling request to the base station again, wherein the second scheduling request indicates that the smart band has received the negative acknowledgement message;

in response to receiving the second scheduling request, transmitting, by a base station, a fourth uplink grant to the smart band, wherein the fourth uplink grant includes an indication of a third uplink resource used by the smart band for uplink transmission, wherein the third uplink resource in the fourth uplink grant is dedicated to the smart band, wherein the third uplink resource includes more time-frequency resources than the first uplink resource;

in response to receiving the fourth uplink grant, sending, by the smart band, all collected user vital sign information to the base station on the third uplink resource;

responding to the received user physical sign information, sending the user physical sign information to a user health center server by a base station,

judging whether the necessary system information changes or not by the base station;

generating, by a base station, new necessary system information if it is determined that the necessary system information is changed, wherein the new necessary system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a new system information identifier, information for performing intra-frequency handover, a transmission mode configuration message, and information for performing inter-frequency handover, wherein the new system information identifier is different from the system information identifier;

in response to receiving the new necessary system information, determining, by the smart band, whether a new system information identifier is included in the new necessary system information;

if the received necessary system information comprises a new system information identifier, the intelligent bracelet breaks the RRC connection with the base station and reestablishes the RRC connection with the base station based on the new necessary system information;

in response to establishing an RRC connection with the base station, sending, by the smart ring, a system information request to the base station;

in response to receiving the system information request, sending other system information to the smart band by a base station, wherein the other system information is system information which is not included in the necessary system information;

determining, by the smart band, a transmission mode indicated in the transmission mode configuration message in response to receiving the other system information,

judging whether the other system information changes by the base station;

if the other system information is judged to be changed, the base station broadcasts the changed other system information;

in response to receiving the other system information being broadcast, updating, by the smart band, the system information saved by the smart band based on the received other system information;

and responding to the updated system information stored in the intelligent bracelet, and sending a scheduling request message to the base station by the intelligent bracelet based on the updated system information.

2. A system for rapidly transmitting user physical sign information is characterized in that,

the system for rapidly transmitting the user sign information comprises:

a unit for collecting user sign information by the smart band;

means for receiving, by the smart band, necessary system information broadcast by a base station, wherein the necessary system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a system information identifier, information for performing intra-frequency handover, a transmission mode configuration message, and information for performing inter-frequency handover;

means for establishing, by the smart band, an RRC connection with the base station in response to receiving the necessary system information;

means for sending, by the smart bracelet, a system information request to the base station in response to establishing an RRC connection with the base station;

means for transmitting, by a base station, other system information to the smart bracelet in response to receiving the system information request, wherein the other system information is system information that is not included in the necessary system information;

means for determining, by the smart band, a transmission mode indicated in the transmission mode configuration message in response to receiving the other system information;

means for sending, by the smart hand-ring, a scheduling request message to the base station if it is determined that the transmission mode indicated in the transmission mode configuration message is the first transmission mode; means for transmitting, by a base station, a first uplink grant to the smart band in response to receiving the scheduling request message, wherein the first uplink grant includes an indication of first uplink resources for uplink transmission by the smart band; means for transmitting, by the smart band, a buffer status report and a portion of the collected user vital sign information to the base station on the first uplink resource in response to receiving the first uplink grant;

means for generating, by a base station, a second uplink grant based on a buffer status report sent by the smart band in response to receiving the buffer status report, and sending, by the base station, the second uplink grant to the smart band;

means for transmitting, by the smart band, remaining user sign information to the base station on uplink resources indicated by the second uplink grant in response to receiving the second uplink grant;

means for transmitting, by a base station to a user health center server, the user vital sign information in response to receiving the user vital sign information,

means for sending, by the smart handset, a scheduling request message to the base station if it is determined that the transmission mode indicated in the transmission mode configuration message is a second transmission mode; means for generating, by a base station and transmitting a third uplink grant to the smart band in response to receiving the scheduling request message, wherein the third uplink grant includes an indication of a second uplink resource for uplink transmission by the smart band, wherein the second uplink resource includes more time-frequency resources than the first uplink resource, and wherein the base station also receives scheduling request messages transmitted by other mobile terminals while receiving the scheduling request message transmitted by the smart band;

means for transmitting, by a base station, a third uplink grant to the other mobile terminal while transmitting the third uplink grant to the smart band, means for transmitting, by the smart band, all collected user vital sign information to the base station on the second uplink resource in response to receiving the third uplink grant;

means for transmitting, by the other mobile terminal, information to the base station on the second uplink resource in response to receiving the third uplink grant;

a unit for transmitting a negative acknowledgement message to the smart band by the base station if the base station receives information transmitted by other mobile terminals;

means for retransmitting, by the smart band, a second scheduling request to the base station in response to receiving the negative acknowledgement message, wherein the second scheduling request indicates that the smart band has received the negative acknowledgement message;

means for transmitting, by a base station, a fourth uplink grant to the smart band in response to receiving the second scheduling request, wherein the fourth uplink grant includes an indication of third uplink resources used by the smart band for uplink transmissions, wherein the third uplink resources in the fourth uplink grant are dedicated for the smart band, wherein the third uplink resources comprise more time-frequency resources than the first uplink resources;

means for transmitting, by the smart band, all collected user vital sign information to the base station on the third uplink resource in response to receiving the fourth uplink grant;

means for transmitting, by a base station to a user health center server, the user vital sign information in response to receiving the user vital sign information,

means for determining, by a base station, whether the necessary system information has changed; means for generating, by a base station, new necessary system information if it is determined that the necessary system information has changed, wherein the new necessary system information includes at least downlink bandwidth information, PHICH configuration information, a system frame number, a PLMN identifier, a cell identifier, access barring information, a new system information identifier, information for performing intra-frequency handover, a transmission mode configuration message, and information for performing inter-frequency handover, wherein the new system information identifier is different from the system information identifier;

means for determining, by the smart band, whether a new system information identifier is included in the new essential system information in response to receiving the new essential system information;

a unit for disconnecting the RRC connection with the base station by the smart band and reestablishing the RRC connection with the base station based on new necessary system information if it is determined that the received necessary system information includes a new system information identifier;

means for sending, by the smart bracelet, a system information request to the base station in response to establishing an RRC connection with the base station;

means for transmitting, by a base station, other system information to the smart band in response to receiving the system information request, wherein the other system information is system information that is not included in the necessary system information;

means for determining, by the smart band, a transmission mode indicated in the transmission mode configuration message in response to receiving the other system information;

a unit configured to send, by the smart hand ring, a scheduling request message to the base station if it is determined that the transmission mode indicated in the transmission mode configuration message is the first transmission mode, and a unit configured to determine, by the base station, whether the other system information changes;

means for broadcasting, by the base station, other system information after the change if it is determined that the other system information has changed;

means for receiving, by the smart band, other system information that is broadcast, the system information saved by the smart band based on the other system information received;

and the unit is used for responding to the system information stored by the intelligent bracelet, and the intelligent bracelet sends a scheduling request message to the base station based on the updated system information.

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