CN114501157B - Interaction method, server, terminal, system and storage medium for live communication - Google Patents

Abstract

The application discloses an interaction method, a terminal, a system and a storage medium for live communication of wheat, wherein the method comprises the following steps: generating leading function data by utilizing a backward pre-presentation integral value with a lower current accumulated integral value in the wheat connecting parties; the current accumulated integral value is the current accumulated integral value of the virtual gift received by both parties in the live communication interaction process; the lead function data is transmitted to at least one target gift-sending party corresponding to the lead party for indicating the at least one target gift-sending party to give the lead party a virtual gift of the corresponding integrated value. Through the mode, the target gift sending method and device send the leading function data to the target gift sending party corresponding to the leading party, so that the target gift sending party is instructed to give the virtual gift, the probability of being reversely exceeded by the backward part is reduced in the live continuous wheat interaction process, and the interaction effect of the two continuous wheat parties in the live continuous wheat interaction process is improved.

Description

Interaction method, server, terminal, system and storage medium for live communication

Technical Field

The application relates to the technical field of live broadcast interaction, in particular to an interaction method, a server, a terminal, a system and a storage medium for live broadcast.

Background

With the popularization of intelligent equipment and the development of communication technology, society has entered the era of intelligent interconnection. Network communication speeds are increasing, and people can conveniently use intelligent equipment to smoothly swim through the network. The live broadcasting technology enriches the use scenes of intelligent equipment, so that people can watch live broadcasting or live broadcasting at any time and any place, and further life of people is enriched.

With the rapid development of the live broadcast industry, the live broadcast interaction forms are also various, and users can give virtual gifts to favorite anchor in the process of watching the anchor broadcast so as to express support to the anchor. One-to-one PK can be carried out between the anchor, or interaction modes such as battle between the anchor or between the anchor and audience groups can be carried out, but the current live broadcast technology provides fewer interaction functions in the live broadcast interaction process of the link wheat, so that the participation degree of the audience on the interaction is not high, and the interaction effect between the link wheat and the two parties can be reduced.

Disclosure of Invention

The technical problem that this application mainly solves is that provides even wheat live broadcast's interactive method, server, electronic terminal, live broadcast system and storage medium, increases the interactive function in even wheat live broadcast interactive process.

In order to solve the technical problems, one technical scheme adopted by the application is as follows: the method for interaction of the live link wheat broadcast comprises the following steps: generating leading function data by utilizing a backward pre-presentation integral value with a lower current accumulated integral value in the wheat connecting parties; the current accumulated integral value is the current accumulated integral value of the virtual gift received by both parties in the live communication interaction process; the lead function data is transmitted to at least one target gift-sending party corresponding to the lead party for indicating the at least one target gift-sending party to give the lead party a virtual gift of the corresponding integrated value.

In order to solve the technical problems, another technical scheme adopted by the application is as follows: the method for interaction of the live link wheat broadcast comprises the following steps: the receiving server utilizes leading function data generated by the backward pre-giving integral value with lower current accumulated integral value in the two parties connected with the wheat; the virtual gift of the corresponding integrated value is given to the lead party according to the lead function data indication.

In order to solve the above and other problems, another technical solution adopted in the present application is to provide a server, which includes: a processor, a memory, and a communication circuit; the memory and the communication circuit are coupled to the processor, the memory stores a computer program, and the processor can execute the computer program to realize the interaction method of live communication with wheat.

In order to solve the technical problems, another technical scheme adopted by the application is as follows: there is provided an electronic terminal including: a processor, a memory, and a communication circuit; the memory and the communication circuit are coupled to the processor, the memory stores a computer program, and the processor can execute the computer program to realize the interaction method of live communication with wheat.

In order to solve the technical problems, another technical scheme adopted by the application is as follows: the live broadcast system comprises the server and the electronic terminal, and the server is in communication connection with the electronic terminal.

In order to solve the technical problems, another technical scheme adopted by the application is as follows: there is provided a computer readable storage medium storing a computer program executable by a processor to implement a live-on-wheat interaction method as provided in the present application.

The beneficial effects of this application are: in the process of interaction between the two parties, a situation that one party is in a larger leading advantage when approaching to the interaction ending time exists, and the backward can realize reverse super in a short time, so that the success or failure is easily determined, and the interaction effect of the live communication interaction process is reduced. Therefore, the method and the device utilize the backward pre-gift integral value with the lower current accumulated integral value in the live communication interaction process of the wheat connecting parties, and can lock the integral value possibly increased behind the current moment by calculating the pre-gift integral value, so that the leading party can conveniently determine how much integral value needs to be increased to reduce the probability of being reversely exceeded behind. And then generating leading function data based on the pre-gift integral value, and sending the leading function data to at least one target gift party corresponding to the leading party, wherein the accumulated integral value of the connecting party is obtained by giving the virtual gift to increase the integral value corresponding to the virtual gift in the intercommunication process, so that when the leading party wants to reduce the possibility of being overtaken by the backward party, the gift party corresponding to the leading party is required to give the virtual gift, and the leading function data is sent to at least one target gift party corresponding to the leading party, so that the at least one target gift party gives the virtual gift with the corresponding integral value larger than or equal to the pre-gift integral value to the leading party, thereby the leading party is likely to keep the leading advantage at the moment when the interaction time is near to the end, the leading protection of the leading party is completed, the interaction function in the connecting party direct interaction process can be effectively increased, the key moment of the connecting party interaction process can be participated in by the audience, the participation sense and the positive of the audience, and the direct interaction effect in the direct interaction process can be increased, and the direct interaction effect of the user can be increased.

Drawings

Fig. 1 is a schematic diagram of a live broadcast system in an embodiment of a live broadcast interaction method with wheat in the present application;

FIG. 2 is a schematic flow chart of an embodiment of an interaction method for live link wheat broadcast in the present application;

FIG. 3 is a schematic diagram of a live interactive interface in an embodiment of the present application;

FIG. 4 is a timing diagram of the interaction method of live wheat-over-live broadcast of the present application;

FIG. 5 is a schematic block diagram of a circuit configuration of an embodiment of an electronic terminal of the present application;

FIG. 6 is a schematic block diagram of a circuit configuration of a server embodiment of the present application;

fig. 7 is a schematic block circuit diagram of an embodiment of a storage medium readable by a computer of the present application.

Detailed Description

The following description of the technical solutions in the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In the live communication interaction process, users can present virtual gifts to the live webcam to express support for the webcam, and with the continuous development of the interaction form, the webcam can interact with each other, and the webcam can also interact with a team. The two interactive parties can compare which party is more popular with the user by comparing the number of the virtual gifts given by the user, the user gives the virtual gifts to the party supported by the user in the process of interaction between the anchor, the virtual gifts can be converted into corresponding integrated values to increase the integrated values of the two parties, and the party with high integrated value obtains winnings in fixed time.

The inventor finds that in the live-broadcast interaction process of the link, users can see the difference of scores of the two parties and the countdown of fight time, the advantages and disadvantages of the two parties are not changed greatly when the interaction time is close to the end, the interaction is continued until the end, the gift-sending enthusiasm of the users is attenuated, particularly, the leading party is easily overturned backward in a short time when the difference of the two parties is smaller, the interaction function provided by the existing interaction function in the live-broadcast interaction process of the link is less, particularly, the interaction is close to the end, the participation degree of the users in the live-broadcast interaction process of the link is not high, the gift enthusiasm and the watching interest of the users are reduced, and the interaction effect of the live-broadcast interaction process of the link is further reduced.

As shown in fig. 1, a live broadcast system 11 described in the live broadcast system embodiments of the present application may include a server 10, a hosting terminal 20, and an audience terminal 30. The anchor terminal 20, the audience terminal 30 may be electronic terminals, and specifically, the anchor terminal 20 and the audience terminal 30 are electronic terminals, i.e., client terminals, in which corresponding client programs are installed. The electronic terminal may be a mobile terminal, a computer, a server or other terminals, the mobile terminal may be a mobile phone, a notebook computer, a tablet computer, an intelligent wearable device, etc., and the computer may be a desktop computer, etc. The server 10 may pull the live data stream from the anchor terminal 20, and may correspondingly process the obtained live data stream and push the live data stream to the viewer terminal 30. The audience terminal 30 may view the live process of the anchor or guest after acquiring the live data stream. A mixed stream of live data streams may occur at least one of the server 10, the anchor terminal 20, and the viewer terminal 30. Video communication or voice communication can be performed between the anchor terminal 20 and the anchor terminal 20, and between the anchor terminal 20 and the viewer terminal 30. In video ligature, the ligature party can push live data streams including video streams to the server 10, and further push corresponding live data to the corresponding ligature party and the audience terminal 30. The anchor terminal 20 and the viewer terminal 30 can display corresponding live pictures in the live broadcasting room. Of course, the anchor terminal 20 and the audience terminal 30 are relatively speaking, and the terminal in the live broadcast process is the anchor terminal 20, and the terminal in the live broadcast watching process is the audience terminal 30.

After wheat linking, the anchor users can interact with each other, for example, PK can be performed, and PK can be one-to-one PK, and PK can also be formed by other anchor users or audience users.

The first embodiment of the live communication interaction method can take a server as an execution main body. The present embodiment may include: s100: generating leading function data by utilizing a backward pre-presentation integral value with a lower current accumulated integral value in the wheat connecting parties; the current accumulated integral value is the current accumulated integral value of the virtual gift received by both parties in the live communication interaction process. S200: the lead function data is transmitted to at least one target gift-sending party corresponding to the lead party for indicating the at least one target gift-sending party to give the lead party a virtual gift of the corresponding integrated value.

By utilizing the backward pre-presentation integral value with a lower current accumulated integral value in the live communication interaction process of the connecting parties, the integral value possibly increased behind the current moment can be locked by calculating the pre-presentation integral value, so that the probability of being reversely exceeded by the backward part can be reduced by the fact that the lead party determines how much the integral value needs to be increased. And then generating leading function data based on the pre-gift integral value, and sending the leading function data to at least one target gift party corresponding to the leading party, wherein the accumulated integral value of the connecting party is obtained by giving the virtual gift to increase the integral value corresponding to the virtual gift in the intercommunication process, so that when the leading party wants to reduce the possibility of being overtaken by the backward party, the gift party corresponding to the leading party is required to give the virtual gift, and the leading function data is sent to at least one target gift party corresponding to the leading party, so that the at least one target gift party gives the virtual gift with the corresponding integral value larger than or equal to the pre-gift integral value to the leading party, thereby the leading party is likely to keep the leading advantage at the moment when the interaction time is near to the end, the 'product protection' of the leading party is completed, the interaction function in the connecting party interaction process can be effectively increased, the key moment of the connecting party interaction process can be also participated in, the participation feeling and the positive of the audience can be promoted, and the viscosity direct interaction effect in the direct broadcast interaction process can be increased.

The method described in the embodiment can be applied to live broadcast and other scenes, and specifically, can be a scene of performing PK or battle among anchor.

The present embodiment is described in detail below.

As shown in fig. 2, this embodiment may include the following steps:

s100: generating leading function data by utilizing a backward pre-presentation integral value with a lower current accumulated integral value in the wheat connecting parties; the current accumulated integral value is the current accumulated integral value of the virtual gift received by both parties in the live communication interaction process.

The link wheat two parties refer to the two parties which interact in the link wheat live broadcast. For example, as shown in fig. 3, the two parties connected with the wheat can be two anchor users who are performing interaction, or can be interaction performed by two teams respectively formed by a plurality of anchor users, or can be two teams formed by the anchor users and audience users, and each party can comprise the anchor users and the audience users. Interaction may refer to two parties playing games, chatting, or performance, for example, two parties may play songs, dances, games, etc. And when the preset time is reached, judging the winner and the winner of the two parties of the link by counting the accumulated integral value corresponding to the virtual gift received by the two parties, wherein the preset time refers to the total time of the whole link live broadcast interaction process.

The integral value is used for reflecting the quantity of gifts received by the two parties connected with the wheat, and has a corresponding relation with the virtual gifts, for example, the integral value of a unit corresponding to the virtual gift A is 1, the integral value of a unit corresponding to the virtual gift B is 2, in the live broadcast interaction process of the wheat connection, the audience user can give out the virtual gift A with the quantity of 100 of one party of the anchor users, and give out the virtual gift B with the quantity of 100 of the other party of the anchor users, so that the current integral values of the two parties connected with the wheat are respectively 100 and 200, and the difference value of the two is 100, namely, the integral difference value is 100.

The pre-gift integral value refers to an integral value which can be presented by a gift party corresponding to the backward party in the live communication interaction process in order to surpass the lead party.

The leading function data is generated based on the backward pre-giving integral value with lower current accumulated integral value of the virtual gift received by both parties in the live communication interaction process of the wheat communication and is used for indicating the virtual gift to be given.

Further, the present embodiment includes the following steps before S100:

s110: judging whether the current time in the live communication interaction process reaches the preset time or not.

Since the live communication interaction process of the link is performed within the preset time, the embodiment needs to realize the probability that the backward of the decrease in the link is performed near the end of the preset time, so that the determination of the pre-present integral value needs to be performed near the end of the preset time, that is, the determination of the pre-present integral value needs to be performed at a certain preset time, and therefore, whether the preset time is reached needs to be judged before the determination of the pre-present integral value.

S120: if yes, the current accumulated integral value of the two parties connected with the wheat at the current moment is obtained.

When the preset time is reached, the current accumulated integral value of the two parties connected with the wheat at the current time can be obtained, so that the leading party and the trailing party in the two parties connected with the wheat can be conveniently determined, and the pre-gift integral value can be conveniently calculated.

S130: the current integrated values of the two parties are compared to determine the leading party and the trailing party.

And comparing the obtained current accumulated integral values of the both parties connected with the wheat, wherein the party with the larger accumulated integral value is the leading party, and the party with the smaller accumulated integral value is the trailing party.

For example, the preset time of the live communication process is 5 minutes, the preset time is 30 seconds after the end of the countdown from the preset time, so that the accumulated integral value of the two parties connected with the wheat is obtained at the time of 4 minutes and 30 seconds after the start of the interaction, the accumulated integral value of the two parties connected with the wheat is compared, the party with the larger accumulated integral value is the leading party, the party with the smaller accumulated integral value is the trailing party, for example, when the countdown from the preset time is 30 seconds, the current accumulated integral value of the party is 5000, the current accumulated integral value of the party is 2000, the party with the accumulated integral value of 5000 is the leading party, and the party with the accumulated integral value of 2000 is the trailing party.

S140: at least one pre-gift party corresponding to the lag behind is determined.

The pre-gift sending party can be determined in the corresponding backward gift sending party, and the number of the pre-gift sending parties can be one or a plurality of pre-gift sending parties. In other words, the gift-sending party corresponding to the backward party is the audience user who gives the virtual gift to the backward party in the live communication process, and the pre-gift-sending party is determined in the gift-sending party.

In one implementation, for determining at least one pre-gift party corresponding to the lag, reference may be made to S140 for the following steps:

s141: at least one gift-sending party located in front of the contribution to the current accumulated integral value behind is taken as a pre-gift-sending party.

In the live interaction process of the continuous wheat, the accumulated integral values of the two parties connected with the wheat can be statistically displayed on a live interface, the gift feeders contributing to the accumulated integral values can be ranked and displayed, a contribution ranking list with contribution values from high to low can be formed, and the probability of continuing to give the gift is high because the gift feeders positioned in the front of the contribution ranking list have great contribution, namely the virtual gift to be given is relatively great, so that when determining the back pre-gift feeders, at least one gift feeder with the contribution to the current accumulated integral value behind the current gift feeders positioned in the front of the contribution ranking list can be selected as the pre-gift feeders. The top may refer to one or more of the top in the leaderboard that each contribute to the leaderboard.

Further, when the gift sending party with contribution in the first three can be selected as the pre-gift sending party, the following steps can be seen:

s142: and when the current moment in the live communication interaction process reaches the preset moment, locking the gift sending party with the contribution to the current accumulated integral value behind in the first three as the pre-gift sending party.

When the current time in the continuous wheat direct broadcast interaction process reaches the preset time, the pre-gift sending party gives a virtual gift to the back, and the pre-gift sending party gives the back on the basis of the integral difference value of the current accumulated integral value of the back and the lead party at the preset time, so that the gift sending party most likely to give the back gift is selected when the pre-gift sending party is determined, and the gift sending party with the contribution to the current accumulated integral value of the back being positioned in the front three can be considered as the gift sending party most likely to give the back the gift to help the back to realize the reverse, and the gift sending party with the contribution to the current accumulated integral value of the back being positioned in the front three is locked to be used as the pre-gift sending party.

S150: and taking the gifted integral value corresponding to the sum of the respective virtual account balances of the at least one pre-gifted party as a pre-gifted integral value.

The virtual account balance refers to the amount remaining in the virtual account that the giver uses to purchase the virtual gift during the interaction, and the virtual account balance is required to be used to purchase the virtual gift before the virtual gift is presented.

And taking the gifted integral value corresponding to the sum of the respective virtual account balances of the at least one pre-gifted party as a pre-gifted integral value. For example, three givers who rank the first three contributions to the current accumulated value of the backward are regarded as pre-givers, the pre-gifted value is the value of the gifted value corresponding to the sum of the virtual account balances of the three pre-givers, and if the virtual account balances of the three pre-givers are B1, B2, and B3, the pre-gifted value b=b1+b2+b3.

In one implementation, for how to generate the leading function data using the trailing pre-donation integral value with the lower current cumulative integral value in the two parties, see the following steps included in S100:

s160: the pre-gift integral value is used to calculate the lead integral value or the number of lead gifts required for the lead party to keep the integral ahead.

The lead integrated value may refer to an integrated value that is required for the lead party to keep integrating at a time corresponding to the pre-gift integrated value, the lead integrated value is calculated based on the pre-gift integrated value, and the lead integrated value may be greater than the pre-gift integrated value. Assuming that the lead integral value is N, N > B, for example, when the accumulated integral value of the backward is 2000, the accumulated integral value of the lead is 5000, and the sum of the respective virtual account balances of at least one pre-gift corresponding to the backward is 4000, the lead needs to receive the virtual gift corresponding to the integral value greater than 4000 to keep the integral lead. Of course, in some possible implementations, the inverse super-integral difference may also be equal to the integral difference.

The number of gifts and the integral value have a preset correspondence relation, specifically, the integral value=the number of gifts×the integral value of the gifts, for example, the gifts with the integral value of 1 are selected by the gifts, when the number of gifts selected by the gifts is 1, 1 integral is added to one of the two parties connected to the gifts, and when the number of gifts selected by the gifts is 1314, 1314 integral is added to one of the two parties connected to the gifts. Based on the correspondence between the number of gifts and the integrated value, there is also a similar correspondence between the integrated value of the lead and the number of the lead gifts, which is determined based on the unit price of the lead gift selected by the giver, which is the integrated value of the lead = number of the lead gifts x the integrated value of the unit of the lead gift, for example, when the integrated value of the unit of the lead gift selected by the giver is 1 and the required integrated value of the lead is 3002, the number of the lead gifts that the giver needs to give is 3002. The embodiment can configure a corresponding leading function gift for the leading function, that is, the gift giver gives the leading function gift when executing the function. The above-mentioned lead gift integration value is an integration value corresponding to the gift with the lead function, and the number of lead gift is the number of gift with the lead function.

S200: the lead function data is transmitted to at least one target gift-sending party corresponding to the lead party for indicating the at least one target gift-sending party to give the lead party a virtual gift of the corresponding integrated value.

The target gift-giver refers to at least one of the audience users who can give the virtual gift to the lead party. By sending the lead function data to at least one target gift sending party, the at least one target gift sending party is instructed to give the virtual gift with the corresponding integral value to the lead party, so that the lead party keeps the integral leading, and the probability of being overtaken by the backward is reduced. For example, the target gift-giver may generate a corresponding prompt after receiving the lead function data, prompting the target gift-giver to gift a corresponding virtual gift.

Specifically, the lead function data may be used to instruct at least one target gift-giver to gift a virtual gift that matches the lead point value or the number of lead gifts.

Specifically, the lead function data may determine at least one target gift-sending party corresponding to the lead party in the current integral contribution list, and specifically reference may be made to the following steps included in the present embodiment before S200:

s210: at least one target gift-sending party is determined.

The target gift sending party can be determined in the gift sending party corresponding to the leading party, and the number of the target gift sending parties can be one or a plurality of target gift sending parties. In other words, the giver corresponding to the leading party is the audience who gives the virtual gift to the leading party in the live communication interaction process, and the target giver is determined among the givers. When a plurality of target gifts exist, the function data of the first party is simultaneously transmitted to the plurality of target gifts so as to instruct the plurality of target gifts to give the virtual gift to the leading party.

For determining at least one target gift-sending party, this can be achieved by:

s211: at least one gift-sending party whose contribution to the current integrated value of the leading party is located in the front is set as the target gift-sending party.

In the live broadcast interaction process of the link, the accumulated integral values of the link parties can be statistically displayed on a live broadcast interface, the gift-sending parties contributing to the accumulated integral values can be ranked and displayed, a contribution ranking list with contribution values from high to low can be formed, and the gift-sending party positioned in the front of the contribution ranking list contributes more, namely the virtual gift to be presented is more, and the probability of continuing to be presented is higher, so that at least one gift-sending party positioned in the front of the contribution ranking list can be selected as a target gift-sending party in the process of determining the target gift-sending party. The top may refer to one or more of the top in the leaderboard that each contribute to the leaderboard.

Further, when the gift sending party with contribution in the first three can be selected as the target gift sending party, the following steps can be seen:

s212: and when the current moment in the live communication interaction process reaches the preset moment, locking the gift sending party with the contribution to the current accumulated integral value of the leading party at the first three as the target gift sending party.

The target gift sending party gives the virtual gift sending party to the leading party when the current moment in the live-broadcasting interaction process reaches the preset moment, and the target gift sending party gives the leading party based on the leading integral value which needs to keep integrating the leading party, so that the target gift sending party is selected to be the gift sending party most likely to give the leading party a gift sending party, and the gift sending party with the contribution to the current accumulated integral value of the leading party being located in the first three can be considered as the gift sending party most likely to give the leading party a gift to help the leading party keep integrating the leading party, and the contribution to the current accumulated integral value of the leading party is locked as the target gift sending party.

After determining the target party, it may be determined whether to generate the leading function data according to the actual situation of each target party, see the following S220:

s220: and judging whether the product of the sum of the balance of the respective virtual accounts of at least one target gift-sending party and the floating coefficient is larger than or equal to a lead integral value or a virtual value corresponding to the number of the lead gift.

The floating coefficient is in order to encourage the target gift sender to give the virtual gift to the leading party in the live broadcast interaction process, so as to help the leading party keep the integral leading, thereby improving the welfare strategy of the interactivity, and the floating coefficient is more than or equal to 1, namely, in the process that the target gift sender gives the virtual gift to the leading party, the value of the gift actually sent by the target gift sender is multiplied by the floating coefficient to obtain the final virtual value, and the accumulated integral value of the leading party is increased according to the integral value corresponding to the final virtual value. For example, when the target gift-sending party sends out a virtual gift with a gift value of 500 virtual coins and the floating coefficient at this time is 1.5, the final virtual value obtained is 500×1.5=750 virtual coins, and the value of the integral corresponding to the virtual value is 750, and when the target gift-sending party sends out a virtual gift with a gift value of 500, the integral of 750 is added to the leading party. Through setting up floating coefficient, can provide welfare for the party of giving away, also can encourage the party of giving away for giving the party of giving away virtual gift in order to keep the point leading to further improve the interactivity in the live interaction process of linking wheat.

Since the virtual gift needs to be purchased by using the balance of the virtual account before the virtual gift is presented, it is required to determine whether the product of the sum of the balance of the respective virtual accounts of at least one target gift-sending party and the floating coefficient is greater than or equal to the virtual value corresponding to the lead integrated value or the number of the lead gift, so that the virtual gift matching the lead integrated value or the number of the lead gift can be presented to the corresponding lead party when the lead function data is received. For example, when the preset time is reached, the accumulated value of the leading party is 5000, the accumulated value of the trailing party is 2000, the pre-gifted value is 3001, the accumulated value of the leading party is 3002, and when it is determined that the contribution to the current accumulated value of the leading party is located in the first three target gifts, it is required to determine whether the accumulated value corresponding to the product of the sum of the respective virtual account balances of the three target gifts and the floating coefficient is greater than or equal to 3002.

S230: if yes, the first function data is sent to at least one target gift sending party corresponding to the leading party.

Based on the determination of whether the product of the total amount of the virtual account balance and the floating coefficient of each of the at least one target gift-sending party is greater than or equal to the inverse super-integral value or the virtual value corresponding to the inverse super-gift quantity, when the product of the total amount of the virtual account balance and the floating coefficient of each of the at least one target gift-sending party is greater than or equal to the lead-integral value or the virtual value corresponding to the lead-gift quantity, the step S200 of sending the lead function data to the at least one target gift-sending party corresponding to the lead party can be performed.

S240: if not, sending recharging prompt information to at least one target gift party for prompting the at least one target gift party to recharge.

The recharging prompt information is used for prompting the gift sender to recharge when the balance of the virtual account of the gift sender is insufficient to purchase the virtual gift.

In one embodiment, when the product of the total virtual account balance and the floating coefficient of each of the at least one target gift-sending party is smaller than the virtual value corresponding to the lead integral value or the lead gift quantity, the lead function data is not sent to the at least one target gift-sending party to keep the integral of the lead party leading, and the at least one target gift-sending party is required to be recharged at the moment, so that the product of the total virtual account balance and the floating coefficient of each of the at least one target gift-sending party is larger than or equal to the virtual value corresponding to the lead integral value or the lead gift quantity, namely, recharging prompt information is directly sent to the at least one target gift-sending party, and the lead function data is sent to the at least one target gift-sending party only after the at least one target gift-sending party is successfully recharged, so that the lead party gives the integral to keep the lead.

In another embodiment, when the product of the sum of the respective virtual account balances and the floating coefficients of at least one target gift-sending party is smaller than the leading integral value or the virtual value corresponding to the number of leading gifts, the leading function data is still sent to the at least one target gift-sending party, and when the at least one target gift-sending party gives out the gifts based on the leading function data, the recharging prompt information is sent to the at least one target gift-sending party. Further, the lead function data and the recharging prompt information can be simultaneously sent to the at least one target gift-sending party, and the recharging prompt information is displayed when the at least one target gift-sending party gives the gift based on the lead function data.

Further, while sending the recharge alert message to the at least one target gift sender, the document may be pushed to alert the at least one target gift sender that recharge is needed to help the lead party maintain the lead advantage, such as: "regrettably! None of the resultant forces with the partner helps the anchor to keep the lead-! The rapid recharge helps the host go to the winning bar-! "

In one implementation, for how to send the recharge alert message to the at least one target gift party, reference may be made to the following steps included in S240:

s241: and generating recharging prompt information for indicating at least a recharging corresponding amount, wherein the recharging prompt information corresponding amount is an amount difference value between the sum of the respective virtual account balances of at least one target gift sender and the ratio of the virtual value corresponding to the lead integral value or the lead gift quantity to the floating coefficient.

The credit difference is the difference between the sum of the respective virtual account balances of at least one target gift-sending party and the ratio of the virtual value corresponding to the lead integral value or the lead gift quantity and the floating coefficient, and the charging prompt information is generated based on the credit difference.

For example, when the virtual account balance of the target gift sending party contributing to the current accumulated integral value of the leading party and ranking the first three is 1500,1000,500, the leading integral value is 6000 and the floating coefficient is 1.5, the sum difference is 6000/1.5- (1500+1000+500) =1000, that is, the target gift sending party corresponding to the leading party at least needs to recharge the virtual gift corresponding to the virtual coin with the virtual value of 1000 to help the leading party keep the integral leading.

S242: and sending the recharging prompt information to at least one target gift sending party so as to prompt the at least one target gift sending party to at least recharge the credit difference.

And after the recharging prompt information is sent to at least one target gift-sending party, prompting the at least one target gift-sending party to at least recharge the limit difference, so that the product of the sum of the respective virtual account balances of the at least one target gift-sending party and the floating coefficient is greater than or equal to the virtual value corresponding to the leading integral value or the leading gift quantity. For example, when the lead integral value is 3000, the floating coefficient is 1.5, the virtual account balance of the three determined target givers is 1500 virtual coins, the difference of the credit is

And sending recharging prompt information of at least 500 virtual coins to the three target gift sending parties, prompting the three target gift sending parties to recharge, wherein after at least one of the three target gift sending parties is recharged, the product of the sum of the virtual account balances of the three target gift sending parties and the floating coefficient can be larger than or equal to the virtual value corresponding to the leading integral value or the leading gift quantity, so that leading functional data can be generated.

S250: the lead function data is generated based on the lead integrated value or the lead gift number.

Since the lead function data is generated based on the lead integrated value or the lead gift number, the corresponding lead integrated value or the lead gift number can be determined by determining the lead function data, and thus the virtual gift for use against the lead function data can be determined. Specifically, the lead function data is transmitted to the target gift-sending party, and the target gift-sending party is instructed to give a virtual gift corresponding to the lead function data, so that the gift-sending party can keep the integral lead to the lead Fang Zengli according to the lead function data.

In one implementation, for how to send the lead function data to at least one target gift-sending party corresponding to the lead party, reference may be made to the following steps included in S200:

s260: the lead function data is transmitted to at least one target gift-sending party for instructing the at least one target gift-sending party to gift a virtual gift having a corresponding point of value greater than or equal to the pre-gift point of value.

The virtual gift is sent to at least one target gift sending party by the leading function data, and the virtual gift is sent to the at least one target gift sending party by the leading party, so that the leading party keeps the integral leading in the continuous live broadcasting interaction process, and therefore, the integral value corresponding to the virtual gift sent to the leading party by the at least one target gift sending party is larger than or equal to the pre-giving integral value of the backward part, and the leading party can keep the integral leading when the backward part wants to go against the super.

In one implementation, in the process of sending the lead function data to at least one target gift-sending party corresponding to the lead party, the following steps may be included in S200:

s270: and if the product of the balance of the virtual account and the floating coefficient in at least one target gift sending party is larger than or equal to the first target gift sending party with the virtual value corresponding to the leading integral value or the leading gift quantity, sending the first leading function data to the first target gift sending party so as to instruct the first target gift sending party to give the virtual gift matched with the ratio of the virtual value corresponding to the leading integral value or the leading gift quantity and the floating coefficient.

S280: and if the product of the balance of the virtual account and the floating coefficient in at least one target gift-sending party is smaller than the first target gift-sending party with the virtual value corresponding to the leading integral value or the leading gift quantity, sending the first leading function data to the first target gift-sending party so as to instruct the first target gift-sending party to give off the virtual gift matched with the balance of the virtual account.

For example, when the target gift-sending party is three gift-sending parties contributing to the first three, the floating coefficient is 1.5, the pre-gift-sending integral value is 2999, the leading integral value is 3000, when the product of the virtual account balance of the first and the floating coefficient is greater than or equal to 3000, that is, when the virtual account balance of the first is greater than or equal to 2000, the first lead function data is sent to the first and used for indicating that the first gives the virtual gift matching the leading integral value or the number of the leading gift. And the product of the balance of the virtual account and the floating coefficient of the second and third charts is less than 3000, namely when the balance of the virtual account of the second and third charts is less than 2000, the second and third charts are used as second target gift-givers, and the second leading function data are sent to the second and third charts for indicating the second and third charts to give the virtual gift matched with the balance of the virtual account.

That is, if the virtual account balance of the first lead Fang Bang is 3000, the virtual account balance of the second lead is 1500, and the virtual account balance of the third lead is 1000, the first lead needs to give a virtual gift with a virtual value of 2000, the second lead needs to give a virtual gift with a virtual value of 1500, and the third lead needs to give a virtual gift with a virtual value of 1000. Further, the text is pushed to each target gift-sending party according to the virtual gift corresponding to the virtual value that each target gift-sending party needs to give, for example, the text is pushed to a list: "give away a gift with value of 1500 can help the host stay with the leading dominant la-! ".

Further, when the product of the sum of the balances of the virtual accounts of the first, second and third charts and the floating coefficient is greater than or equal to 3000, but the product of the balances of the virtual accounts of the first, second and third charts and the floating coefficient is less than 3000, that is, the balances of the virtual accounts of the first, second and third charts are less than 2000, the first, second and third charts are presented together to keep the lead party to keep the point lead. If the balance of the virtual account in the first list is 1500, the balance of the virtual account in the second list is 1000, and the balance of the virtual account in the third list is 600, the virtual gift with the virtual value of 1500 needs to be presented in the first list, the virtual gift with the virtual value of 1000 needs to be presented in the second list, and the virtual gift with the virtual value of 600 needs to be presented in the third list. Further, when the first, second and third parties need to be presented together to keep the leading party ahead, the first, second and third parties can be pushed with the text, for example, "together with other partners can help the host keep the leading advantage la-! ".

Further, for how to send the lead function data to at least one target gift-sending party corresponding to the lead party, see the following steps included in S200:

s290: and sending the leading function data to at least one target gift sending party corresponding to the leading party, so as to display the leading interface icon on a live broadcast interface corresponding to the target gift sending party, and further providing the target gift sending party with corresponding virtual gift through the leading interface icon.

As shown in fig. 3, the lead interface icon 1 is generated on the live interface 2 based on the lead function data, and the lead interface icon 1 may be named, for example, "one-key lead", and the lead interface icon 1 may implement a corresponding function by clicking by the target gift party. When the lead function data is sent to at least one target gift sending party, a lead interface icon 1 is displayed on a live broadcast interface 2 corresponding to the at least one target gift sending party, and the target gift sending party can give a virtual gift with a corresponding integral value larger than or equal to the pre-giving integral value by clicking the lead interface icon 1.

Further, after the leading function data is transmitted to at least one target gift-sending party corresponding to the leading party, the following steps may be referred to:

S300: the receiving target gift party responds to the lead gift instruction generated by operating the lead interface icon.

The lead presentation instruction is generated based on the target gift maker operating the lead interface icon 1 for presenting the corresponding virtual gift to the lead maker.

S310: and receiving and calculating the product of the integral value corresponding to the virtual gift indicated by the lead gift instruction and the floating coefficient, and further updating the current accumulated integral value of the lead party.

After the corresponding virtual gift is presented based on the instruction of the lead presentation instruction, an integral value corresponding to the virtual gift is acquired, and the integral value is added to the current accumulated integral value of the lead party so as to update the current accumulated integral value of the lead party.

Further, after the giving of the virtual gift to the lead party is completed based on the lead function data, the method may include the steps of:

s320: and when the interaction is finished, comparing the total accumulated integral value received by each of the two parties connected with the wheat to generate interaction result data.

After the interaction is finished, the total accumulated integral value of the virtual gift received by each of the two parties connected with the wheat is compared, and the winner and the loser are determined according to the comparison result, as shown in fig. 4. For example, the accumulated value of the backward acquired at the preset time is 2001, the accumulated value of the leading party is 5000, the accumulated value of the backward acquired interaction result data is 5001 and the accumulated value of the leading party is 5002 at the end of the interaction, so that the interaction result data is that the leading party fails to fail and the leading party keeps the integral leading as the winning party.

S330: and sending the interaction result data to the parties connected with the wheat and the audience at the live broadcasting room of the parties connected with the wheat.

Because the users watching live broadcast are numerous in the live broadcast interaction process, after the interaction result data is generated, the interaction result data is not only required to be sent to the two parties of the live broadcast, but also required to be sent to all audience parties in a live broadcast room of the two parties of the live broadcast.

In one implementation, for how to generate the leading function data by using the trailing pre-gifted integral value with the lower current accumulated integral value in the two parties, the following steps may be further referred to:

s340: and generating leading function data by utilizing the integral difference value of the current accumulated integral of the two parties connected with the wheat and the pre-integral difference value between the backward pre-gift integral value.

The integral difference value refers to the integral difference value obtained by subtracting the accumulated integral value of the leading party at the preset moment from the accumulated integral value of the trailing party at the backward part at the preset moment after the obtained current accumulated integral value of the both parties when the preset moment is reached in the live communication interaction process.

The pre-integral difference is a difference between the post pre-gifted integral value and the integral difference, that is, the pre-integral difference=the pre-gifted integral value-the integral difference, and further, a coefficient δ may be preset in the process of calculating the pre-integral difference, and 0 < δ < 1, that is, the pre-integral difference=the pre-gifted integral value- δ×the integral difference.

In one implementation, based on the pre-integral difference value determined in the embodiment S340, in the process of transmitting the lead function data to at least one target gift-sending party corresponding to the lead party, the method may include the following steps:

s350: the lead function data is transmitted to at least one target gift-sending party for instructing the at least one target gift-sending party to gift a virtual gift having a corresponding point of value greater than or equal to the pre-point difference.

The method comprises the steps of sending the function data to at least one target gift sending party, and indicating the at least one target gift sending party to give the virtual gift to the leading party, so that the leading party keeps the integral leading in the live communication interaction process, and therefore, the integral value corresponding to the virtual gift given by the at least one target gift sending party is larger than or equal to the pre-integral difference value, and the leading party can keep the integral leading when the leading party wants to go against overtaking.

After generating the leading function data based on the pre-integral difference value of the embodiment S340, the step of transmitting the leading function data to at least one target gift-sending party is the same as the step of generating the leading function data based on the leading integral and transmitting the same to at least one target gift-sending party, and will not be described again.

The second embodiment of the live communication interaction method can take the audience terminal as an execution subject. The embodiment further includes: m100: the receiving server uses the leading function data generated by the backward pre-presentation integral value with the lower current accumulated integral value in the two parties. M200: the virtual gift of the corresponding integrated value is given to the lead party according to the lead function data indication.

The specific content of this embodiment may refer to the description of the first embodiment of the live-link interaction method of this application, in other words, the technical solution described in the first embodiment of the live-link interaction method of this application may be converted into the technical solution of this embodiment by taking the audience terminal as the target gift party as the viewing angle, so the whole content of this embodiment may refer to the description of the first embodiment of the live-link interaction method of this application, and will not be repeated herein.

As shown in fig. 5, the electronic terminal embodiment of the present application corresponds to a viewer terminal, and may specifically be the target gift party mentioned in the first embodiment of the live-with-wheat interaction method of the present application. The electronic terminal 100 includes a processor 110, a memory 120, and communication circuitry.

The memory 120 is used to store a computer program, which may be a RAM, a ROM, or other type of storage device. In particular, the memory may include one or more computer-readable storage media, which may be non-transitory. The memory may also include high-speed random access memory, as well as non-volatile memory, such as one or more magnetic disk storage devices, flash memory storage devices. In some embodiments, a non-transitory computer readable storage medium in memory is used to store at least one piece of program code.

The processor 110 is used to control the operation of the electronic terminal 100, and the processor 110 may also be referred to as a CPU (Central Processing Unit ). The processor 110 may be an integrated circuit chip with signal processing capabilities. Processor 110 may also be a general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components. The general purpose processor may be a microprocessor or the processor 110 may be any conventional processor or the like.

The processor 110 is configured to execute a computer program stored in the memory 120 to implement the live-link interaction method described in the embodiments of the live-link interaction method of the present application.

In some embodiments, the electronic terminal 100 may further include: a peripheral interface 130 and at least one peripheral. The processor 110, the memory 120, and the peripheral interface 130 may be connected by a bus or signal line. The individual peripheral devices may be connected to the peripheral device interface 130 by buses, signal lines, or circuit boards. Specifically, the peripheral device includes: at least one of radio frequency circuitry 140, display 150, audio circuitry 160, and power supply 170.

Peripheral interface 130 may be used to connect at least one Input/output (I/O) related peripheral to processor 110 and memory 120. In some embodiments, processor 110, memory 120, and peripheral interface 130 are integrated on the same chip or circuit board; in some other embodiments, either or both of the processor 110, the memory 120, and the peripheral interface 130 may be implemented on separate chips or circuit boards, which is not limited in this embodiment.

The Radio Frequency circuit 140 is configured to receive and transmit RF (Radio Frequency) signals, also referred to as electromagnetic signals. The radio frequency circuit 140 communicates with a communication network and other communication devices via electromagnetic signals. The radio frequency circuit 140 converts an electrical signal into an electromagnetic signal for transmission, or converts a received electromagnetic signal into an electrical signal. Optionally, the radio frequency circuit 140 includes: antenna systems, RF transceivers, one or more amplifiers, tuners, oscillators, digital signal processors, codec chipsets, subscriber identity module cards, and so forth. The radio frequency circuit 140 may communicate with other terminals via at least one wireless communication protocol. The wireless communication protocol includes, but is not limited to: the world wide web, metropolitan area networks, intranets, generation mobile communication networks (2G, 3G, 4G, and 5G), wireless local area networks, and/or WiFi (Wireless Fidelity ) networks. In some embodiments, the radio frequency circuit 140 may also include NFC (Near Field Communication ) related circuits, which are not limited in this application.

The display 150 is used to display a UI (User Interface). The UI may include graphics, text, icons, video, and any combination thereof. When display 150 is a touch display, display 150 also has the ability to collect touch signals at or above the surface of display 150. The touch signal may be input to the processor 110 as a control signal for processing. At this time, the display 150 may also be used to provide virtual buttons and/or virtual keyboards, also referred to as soft buttons and/or soft keyboards. In some embodiments, the display 150 may be one, and disposed on the front panel of the electronic terminal 100; in other embodiments, the display 150 may be at least two, and disposed on different surfaces of the electronic terminal 100 or in a folded design; in other embodiments, the display 150 may be a flexible display disposed on a curved surface or a folded surface of the electronic terminal 100. Even more, the display 150 may be arranged in a non-rectangular irregular pattern, i.e., a shaped screen. The display 150 may be made of LCD (Liquid Crystal Display ), OLED (Organic Light EmittingDiode, organic light emitting diode) or other materials.

The audio circuit 160 may include a microphone and a speaker. The microphone is used for collecting sound waves of users and environments, converting the sound waves into electric signals, and inputting the electric signals to the processor 110 for processing, or inputting the electric signals to the radio frequency circuit 140 for voice communication. For the purpose of stereo acquisition or noise reduction, a plurality of microphones may be respectively disposed at different positions of the electronic terminal 100. The microphone may also be an array microphone or an omni-directional pickup microphone. The speaker is used to convert electrical signals from the processor 110 or the radio frequency circuit 140 into sound waves. The speaker may be a conventional thin film speaker or a piezoelectric ceramic speaker. When the speaker is a piezoelectric ceramic speaker, not only the electric signal can be converted into a sound wave audible to humans, but also the electric signal can be converted into a sound wave inaudible to humans for ranging and other purposes. In some embodiments, audio circuit 160 may also include a headphone jack.

The power supply 170 is used to power the various components in the electronic terminal 100. The power source 170 may be alternating current, direct current, disposable or rechargeable. When the power source 170 comprises a rechargeable battery, the rechargeable battery may be a wired rechargeable battery or a wireless rechargeable battery. The wired rechargeable battery is a battery charged through a wired line, and the wireless rechargeable battery is a battery charged through a wireless coil. The rechargeable battery may also be used to support fast charge technology.

For detailed explanation of the functions and execution processes of each functional module or component in the embodiment of the terminal device of the present application, reference may be made to the above explanation in the embodiment of the live broadcast interaction method of the present application, which is not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed electronic terminal and background processing method may be implemented in other manners. For example, the embodiments of the electronic terminal described above are merely illustrative, e.g., the division of modules or units is merely a logical function division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the embodiment.

In addition, each functional unit in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The communication circuit is a device or circuit used by the electronic terminal 100 to communicate with an external device to enable the processor 110 to interact data with the external device via a transceiver.

As shown in fig. 6, the server 200 described in the embodiment of the present application includes a processor 210, a memory 220, and a communication circuit.

The memory 220 is used to store a computer program, which may be a RAM, a ROM, or other type of storage device. In particular, the memory may include one or more computer-readable storage media, which may be non-transitory. The memory may also include high-speed random access memory, as well as non-volatile memory, such as one or more magnetic disk storage devices, flash memory storage devices. In some embodiments, a non-transitory computer readable storage medium in memory is used to store at least one piece of program code.

The processor 210 is used to control the operation of the server 210, and the processor 210 may also be referred to as a CPU (Central Processing Unit ). The processor 210 may be an integrated circuit chip with signal processing capabilities. Processor 210 may also be a general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components. A general purpose processor may be a microprocessor or the processor 210 may be any conventional processor or the like.

The processor 210 is configured to execute a computer program stored in the memory 220 to implement the live-link interaction method described in the embodiments of the live-link interaction method of the present application.

The communication circuit is a device or circuit used by the server 200 to communicate with an external device to enable the processor 210 to interact with the external device via the transceiver 230.

Referring to fig. 7, the above-described integrated units, if implemented in the form of software functional units and sold or used as independent products, may be stored in the computer-readable storage medium 300. Based on such understanding, the technical solution of the present application may be embodied essentially or in part or all or part of the technical solution contributing to the prior art or in the form of a software product stored in a storage medium, including several instructions/computer programs to cause a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor (processor) to perform all or part of the steps of the methods of the embodiments of the present invention. And the aforementioned storage medium includes: various media such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk or an optical disk, and terminal devices such as a computer, a mobile phone, a notebook computer, a tablet computer, and a camera having the above storage media.

The description of the execution process of the program data in the computer readable storage medium may be described with reference to the above embodiment of the method for detecting an effective frequency of the present application signal, which is not repeated herein.

The foregoing description is only exemplary embodiments of the present application and is not intended to limit the scope of the present application, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present application, or direct or indirect application in other related technical fields are included in the scope of the present application.

Claims (21)

1. The interaction method for the live continuous wheat broadcasting is characterized by comprising the following steps of:

generating leading function data by utilizing a backward pre-presentation integral value with a lower current accumulated integral value in the wheat connecting parties; wherein, the current accumulated integral value is the current accumulated integral value of the virtual gift received by both parties in the live wheat-connecting interaction process; the pre-gift integral value is an integral value that the gift party corresponding to the backward part can gift as the anti-super-lead party; wherein, utilize the low back of the current cumulative integral value in the company and send the integral value in advance of wheat, produce the leading function data, include: calculating a lead point value or a lead gift amount required by the lead party to keep the integral lead using the pre-gift point value; generating the lead function data based on the lead point value or the lead gift quantity for instructing at least one target gift-giver to gift a virtual gift that matches the lead point value or the lead gift quantity;

And sending the leading function data to at least one target gift sending party corresponding to the leading party, so as to instruct the at least one target gift sending party to give a virtual gift matched with the leading integral value or the leading gift quantity to the leading party.

2. The interaction method according to claim 1, wherein:

the sending the leading function data to at least one target gift party corresponding to the leading party for indicating the at least one target gift party to gift a virtual gift of a corresponding integral value to the leading party, including:

and sending the leading function data to the at least one target gift party for indicating the at least one target gift party to gift a virtual gift with a corresponding integral value greater than or equal to the pre-gift integral value to the leading party.

3. The interaction method according to claim 2, wherein:

before the sending the leading function data to the at least one target gift party corresponding to the trailing side, the method comprises:

determining the at least one target gift-sending party;

judging whether the product of the sum of the balance of the virtual accounts of the at least one target gift-sending party and the floating coefficient is larger than or equal to the leading integral value or the virtual value corresponding to the number of the leading gift;

If yes, the step of sending the leading function data to at least one target gift sender corresponding to the leading party is executed.

4. An interaction method as claimed in claim 3, characterized in that:

the sending the leading function data to at least one target gift party corresponding to the leading party includes:

if a first target gift-sending party with the product of the virtual account balance and the floating coefficient being greater than or equal to the leading integral value or the virtual value corresponding to the leading gift quantity exists in the at least one target gift-sending party, sending first leading function data to the first target gift-sending party so as to instruct the first target gift-sending party to give a virtual gift matched with the ratio of the virtual value corresponding to the leading integral value or the leading gift quantity and the floating coefficient;

and if a second target gift-sending party with the product of the virtual account balance and the floating coefficient being smaller than the leading integral value or the virtual value corresponding to the number of the leading gift exists in the at least one target gift-sending party, sending second leading function data to the second target gift-sending party so as to instruct the second target gift-sending party to give out the virtual gift matched with the virtual account balance.

5. The method of interaction of claim 4, wherein:

the determining at least one target gift-sending party includes:

and setting at least one gift sending party with a contribution to the current accumulated integral value of the leading party in the front as the target gift sending party.

6. The method of interaction of claim 5, wherein:

the at least one gift-sending party that locates the contribution to the current integrated value of the leading party in the front as the target gift-sending party includes:

and when the current moment in the live communication interaction process reaches the preset moment, locking the gift sending party with the contribution to the current accumulated integral value of the leading party at the first three as the target gift sending party.

7. An interaction method as claimed in claim 3, characterized in that:

if not, sending recharging prompt information to the at least one target gift party for prompting the at least one target gift party to recharge.

8. The method of interaction of claim 7, wherein:

the sending recharging prompting information to the at least one target gift sending party is used for prompting the at least one target gift sending party to recharge, and the method comprises the following steps:

Generating recharging prompt information for indicating at least a recharging corresponding amount, wherein the recharging prompt information corresponding amount is an amount difference value between the sum of the respective virtual account balances of the at least one target gift sending party and the ratio of the virtual value corresponding to the leading integral value or the leading gift quantity and the floating coefficient;

and sending the recharging prompt information to the at least one target gift party so as to prompt the at least one target gift party to recharge at least the limit difference.

9. The interaction method according to claim 1, wherein:

before generating the leading function data, the method includes:

determining at least one pre-gift party corresponding to the lag;

and taking the gifted integral value corresponding to the sum of the respective virtual account balances of the at least one pre-gifted party as the pre-gifted integral value.

10. The method of interaction of claim 9, wherein:

the determining at least one pre-gift party corresponding to the lag includes:

and setting at least one gift-sending party with the contribution to the backward current accumulated integral value in the front as the pre-gift-sending party.

11. The method of interaction of claim 10, wherein:

said at least one gift-sending party that locates a contribution to the backward current integrated value in the front as the target gift-sending party, comprising:

and when the current moment in the live communication interaction process reaches the preset moment, locking the gift sending party with the contribution to the current accumulated integral value behind at the front three as the pre-gift sending party.

12. An interaction method as claimed in claim 3, characterized in that:

the sending the leading function data to at least one target gift party corresponding to the leading party includes:

and sending the leading function data to at least one target gift sending party corresponding to the leading party, wherein the target gift sending party is used for displaying a leading interface icon on a live broadcast interface corresponding to the target gift sending party, so that the target gift sending party gives out corresponding virtual gift through the leading interface icon.

13. The method of interaction of claim 12, wherein:

after the sending the leading function data to at least one target gift party corresponding to the leading party, the method includes:

receiving a lead gift instruction generated by the target gift party in response to the operation of the lead interface icon;

And calculating the product of the integral value corresponding to the virtual gift indicated by the lead gift instruction and the floating coefficient, and further updating the current accumulated integral value of the lead party.

14. The interaction method according to claim 1, wherein:

the generating the leading function data by utilizing the backward pre-giving integral value with lower current accumulated integral value in the two parties connected with the wheat comprises the following steps:

generating the leading function data by utilizing a pre-integral difference value between the integral difference value of the current accumulated integral of the two parties connected with the wheat and the pre-gift integral value behind the two parties connected with the wheat;

transmitting the lead function data to at least one target gift-sending party corresponding to the lead party for instructing the at least one target gift-sending party to gift a virtual gift of a corresponding integral value to the lead party, comprising:

and sending the leading function data to the at least one target gift sending party for indicating the at least one target gift sending party to give a virtual gift with a corresponding integral value greater than or equal to the pre-integral difference value to the leading party.

15. The interaction method according to claim 1, wherein:

before generating leading function data by using a backward pre-presentation integral value having a lower current integrated value among the parties connected to the wheat, the method comprises:

Judging whether the current time in the live communication interaction process reaches a preset time or not;

if yes, acquiring the current accumulated integral value of the wheat connecting parties at the current moment;

comparing the current cumulative integral values of the two parties to determine the leading party and the trailing party.

16. The method of interaction of claim 15, further comprising:

when the interaction is finished, comparing the total accumulated integral value received by each of the wheat connecting parties and the virtual gift to generate interaction result data;

and sending the interaction result data to the both parties and audience parties in a live broadcasting room of the both parties.

17. An interaction method for live continuous wheat broadcasting is characterized by comprising the following steps:

the receiving server utilizes leading function data generated by the backward pre-giving integral value with lower current accumulated integral value in the two parties connected with the wheat; wherein, the current accumulated integral value is the current accumulated integral value of the virtual gift received by both parties in the live wheat-connecting interaction process; the pre-gift integral value is an integral value that the gift party corresponding to the backward part can gift as the anti-super-lead party; the server calculates a lead integral value or a lead gift amount required for a lead party to keep an integral lead using the pre-gift integral value; generating the lead function data based on the lead point value or the lead gift quantity for instructing at least one target gift-giver to gift a virtual gift that matches the lead point value or the lead gift quantity;

And giving the virtual gift matched with the lead integral value or the lead gift quantity to the lead party according to the lead function data instruction.

18. A server, comprising: a processor, a memory, and a communication circuit; the memory and the communication circuit are coupled to the processor, the memory storing a computer program, the processor being capable of executing the computer program to implement the interaction method of any of claims 1-16.

19. An electronic terminal, comprising: a processor, a memory, and a communication circuit; the memory and the communication circuit are coupled to the processor, the memory storing a computer program that is executable by the processor to implement the interaction method of claim 17.

20. A live broadcast system comprising a server according to claim 18 and an electronic terminal according to claim 19, the server being communicatively connected to the electronic terminal.

21. A computer readable storage medium, storing a computer program executable by a processor to implement the interaction method of any of claims 1-17.

Images