GB2432488A

GB2432488A - Communication game terminal including variable setting of transmitting and receiving frequency on which to play with other plural terminals

Info

Publication number: GB2432488A
Application number: GB0623102A
Authority: GB
Inventors: Kensuke Nakanishi
Original assignee: Namco Bandai Games Inc
Current assignee: Bandai Namco Entertainment Inc
Priority date: 2005-11-21
Filing date: 2006-11-20
Publication date: 2007-05-23
Anticipated expiration: 2026-11-20
Also published as: JP5078252B2; US20070117632A1; GB2432488B; GB0623102D0; JP2007135977A

Abstract

A game terminal 10 is connected to a plurality of other game terminals via communication lines. The game terminal 10 includes a communication-frequency setting section 150 that variably set a communication frequency of transmitting and receiving game data between the game terminal 10 and each of the other plural game terminals according to contents of a game in progress. A transmitting section 144, a receiving section 146, and a communication interface section 160 performs reception of the game data between the game terminal 10 and each of the other game terminals 10 at the communication frequency set by the communication-frequency setting section 150.

Description

CQUNICATION GAME APPARATUS, SYSTEM, METHOD AND PROGRAM The present

invention relates to a communication game apparatus, a communication game system, a communication game method, and a communication game program for playing a competitive game by transmitting and receiving game data among plural apparatuses.

Conventionally, there is known a competitive car race game for performing a car race by connecting plural game terminals to one another via a network and operating operation units provided in the respective game terminals to drive vehicles in a game space (see, for example, Japanese Patent kplicticr, Li-31 i'u. UU =4i 13). There is also known a game system for controlling a data quantity of communication via a network by game terminals by means of designating a size of a partial game world using plural game terminals (see, for example, Japanese Patent Application Laid-Open No. 2002-253866) In playing a competitive car race game using plural game terminals connected to one another via a network, data necessary for the game is transmitted and received among the respective game terminals. As the number of game terminals participating in the game increases, a data quantity transmitted and received among the respective game terminals increases. However, usually, since there is a limit in a communication band usable by the respective game terminals, when a data quantity transmitted and received is excessively large, excessive time is required for the transmission and reception of the data. Therefore, a long time is required for the respective game apparatuses to receive data of the other game terminals or an interval for receiving data is extended to deteriorate computation accuracy in computing actions of opponents at a predetermined interval. Thus, the actions of the opponents become unnatural spoil the realistic feel of the game. It is possible to reduce a data quantity transmitted and rece ivedbetween the respective game terminals and the network by using the method of the game system disclosed in Japanese Patent Application Laid-Open No. 2002-253866.

However, the same problem occurs when the number of game terminals increec ti uLi1y exceeds the communication band. Therefore, this method does not present a fundamental solution.

The invention has been devised in view of such problems and it is an object of the invention to provide a communication game apparatus, a communication game system, a communication game method, anda communication game program that can improve, in a competitive game, the realistic feeling of the game by preventing actions of opponents from becoming unnatural.

A communication game apparatus of the invention is a communication game apparatus to which plural opponent game apparatuses (the other plural communication apparatuses) are connected via communication lines. The communication game apparatus includes: a communication-frequency setting unit that variably sets a communication frequency of transmitting and receiving game data between the communication game apparatus and each of the plural opponent game apparatuses according to contentsofagameinprogress; anda communicating unit that performs transmission and reception of the game data between the communication game apparatus and each of the plural opponent game apparatuses at the communication frequency set by the communication-frequency setting unit.

A communication game system of the invention is a communication game system in which plural communication game apparatuses are connected to one another via a network. Each of the plural communication game apparatuses includes: a communication-frequency setting unit that variably sets a communicaI-irn f'r:y c Lusmicc1ng and receiving game data between the communication game apparatus and each of the other plural communication game apparatuses excluding the own apparatus according to contents of a game in progress; and a communicating unit that performs transmission and reception of the game data between the communication game apparatus and each of the plural communication game apparatuses excluding the own apparatus at the communication frequency set by the communication-frequency setting unit.

A communication game method of the invention is a communication game method of transmitting and receiving game data in a communication game system in which plural communication game apparatuses are connected to one another via a network. The communication game method includes: a communication-frequency setting step of variably setting, in ( each of the plural communication game apparatuses, a communication frequency of transmitting and receiving game data between the communication game apparatus and each of the other plural communication game apparatuses excluding the own apparatus according to contents of a game in progress; and a communicating step of performing transmission and reception of the game data between the communication game apparatus and each of the plural communication game apparatuses excluding the own apparatus at the communication frequency set in the communication-frequency setting step.

A communication game program of the invention is a Communication game program that causes a computer to function tutuIIuLIicac1on- rrequency setting unit that variably sets a communication frequency of transmitting and receiving game data between a communication game apparatus and each of plural opponent game apparatuses connected to the communication game apparatus via communication lines according to contents of a game in progress; and a communicating unit that performs transmission and reception of the game data between the communication game apparatus and each of the plural opponent game apparatuses at the communication frequency set by the communication-frequency setting unit.

Consequently, when transmission and reception of game data are performed between the communication game apparatus and the plural opponent game apparatuses (or, the other plural communication game apparatuses), it is possible to set a communication frequency for each of the apparatuses according to contents of the game. Thus, it is possible to increase a frequency of acquiring game data concerning a part of opponent characters (the other characters excluding the player-character) according to importance or the like, prevent actions from becoming unnatural by improving accuracy of prediction of the actions, and improve the realistic feeling of the game.

It is desirable that the communication game apparatus further includes a character-action computing unit that computes, on the basis of the game data received by the communicating unit, an action of a player-character corresponding to the own apparatus and actions of plural ppnrt L.L.cILLeLS corresponding to the plural opponent game apparatuses (or, the other plural communication game apparatuses), respectively, and the communication-frequency setting imit sets a communication frequency on the basis of a relative relation between the player-character and each of the plural opponent characters. This makes it possible to reduce an interval of acquisition of game data concerning opponent characters having a close relative relation with the player-character.

It is desirable that the communication-frequency setting unit sets a high communication frequency between the communication game apparatus and opponent game apparatuses (or, the other communication game apparatuses) corresponding to opponent characters close to the player-character and sets a low communication frequency between the comxnunicat ion game (.

apparatus and opponent game apparatuses (or, the other communication game apparatuses) corresponding to opponent characters distant from the player-character. Consequently, since data is frequently acquired for opponent characters present around the player-character operated by the player, it is possible to reduce a degree of impression that actions of the characters are unnatural. It is possible to reduce adataquantityof game data transmittedandreceivedby setting a long interval of acquisition of data for opponent characters having low importance and distant from the coruttunication game apparatus.

It is desirable that the communication-frequency setting it tis iyii communication frequency between the communication game apparatus and opponent game apparatuses corresponding to opponent characters highly likely to affect an action of the player-character and sets a low communication frequency between the communication game apparatus and the opponent game apparatuses corresponding to the other opponent characters. Consequently, since data is frequently acquired for opponent characters highly likely to affect actions of the player-character operated by the player, it is possible to reduce a degree of an impression that actions of characters are unnatural. Furthermore, it is possible to reduce a quantity of game data transmitted and received by setting a long interval of acquisition of data for opponent characters that are less likely to affect actions of the player-characters.

Furthermore, it is desirable that a predetermined communication bandwidth is set for at least one of the transmission and the reception of game data via the communication lines and the communication-frequency setting unit includes a bandwidth setting unit that sets a proportion of a bandwidth to be allocated to each of the plural opponent game apparatuses (or, the other communication game apparatuses) to a communication bandwidth according to a level of a communication frequency. This makes it possible to allocate limited communication bandwidth to each of the opponent game apparatuses (or, to each of the other communication game apparatuses) and effectively use the cnmm1jjçfl i.LJ1 and maices it possible to secure a relatively wide bandwidth for opponent characters having a relatively close relation and realize prompt data acquisition.

It is desirable that a fixed value is set for one traffic of game data transmittedandrecejvedbetween the communication game apparatus and each of the plural opponent game apparatuses (or, the other communication game apparatuses) and the communication-frequency setting unit further includes a transmission-timing judging unit that accumulates values of thebandwidthallocated, whichare setbythebandwidthsetting unit, for the respective opponent game apparatuses (or, for the respective other communication game apparatuses) and judges that transmission timing for the game data has come when the accumulated values reaches the fixed value. This makes it possible to transmit and receive the game data at a frequency according to each of the communication bandwidth allocated.

It is desirable that the transmission-timing judging unit performs a judging operation at a predetermined time interval.

Consequently, since it is judged whether transmission of the game data is performed every fixed interval, it is possible to transmit the game data at a shorter interval as a communication bandwidth secured is wider.

It is desirable that, when a degree of cooperation between the player-character corresponding to the own apparatus and each of the plural opponent characters corresponding to the plural opponent game apparatuses is set according to game (nt, th Cmu1LufliCaCiOfl-treqUeflcy setting unit sets a communication frequency taking into account the degree of cooperation. This makes it possible to set a i-ugh communication frequency for opponent game apparatuses of opponent characters that have a high degree of cooperation, for example, having a specific relation with the player-character.

It is desirable that parameters indicating individualities of the respective opponent characters are set for each of the plural opponent characters corresponding to the plural opponent game apparatuses and the communication-frequency setting unit sets a communication frequency according to the parameters. This makes it possible to acquire game data at a high communication frequency for, f or example, opponent characters that have high ability values and are capable of performing quick movements.

An embodiment of the present invention will now be described, by way of example, with reference to the accompanying drawings, in which:-FIG. 1 is a diagram showing an overall configuration of a competitive game system according to an embodiment of the invention; FIG. 2 is a diagram showing a detailed configuration of a game terminal; FIG. 3 is a flowchart showing an operationproceduremainly related to transmission of game data performed in the game terminal: FIG. 4 is a diagram showing a specific example of distance calculation; FIG. 5 is a diagram showing a specific example of a usable bandwidth calculated on the basis of a distance shown in FIG. 4; and FIGS. 6A and 6B are diagrams showing specific examples of an operation for accumulating data and an operation for judging transmission timing.

FIG. 1 is a diagram showing an overall configuration of a competitive communication game system according to an embodiment of the invention. The competitive communication game system includes plural game terminals 10 connected to one another via a network 30 anda game server 20. For example, it is possible to use the Internet or the like as the network a--10 - 20. The respective game terminals 10 and the network 30 are always connected. The respective game terminals 10 are used to play a competitive car race game. Players can drive racing cars of the players themselves along a course provided in a virtual three-dimensional game space and participate in a car race by using the game terminals 10.

FIG. 2 is a diagram showing a detailed configuration of one game terminal 10. The game terminal 10 includes a game apparatus 100 that performs a predetermined game computation and outputs a video signal of a game screen and an audio signal of various kinds of sound effect or the like by executing a communication game program stored in a DVD-ROM 190 serving iiL.LuLlLlcLcion recording medium. The terminal 10 also includes a television monitor apparatus 200 connected to the game apparatus 100, and a controller 300 manually operated by players.

The television monitor apparatus 200 includes a display 210 that displays a game screen on a display screen on the basis of a video signal inputted from the game apparatus 100 and a speaker 220 that converts an audio signal inputted from the game apparatus 100 into sound. The display 210 is constituted by, for example, a CRT (cathode ray tube), an LCD (a liquid crystal display), or a liquid crystal projector.

The controller 300 includes a cross key that can arbitrarily point eight directions and plural push button switches that are selectively depressed as required. In order to give a player the feeling of actually participating in a car race,

-II -

a controller dedicated for vehicle driving game including a steering wheel and a transmission may be used.

The game apparatus 100 includes a game computing section 110, acommunicationinterfacesectjon (communication IF) 160, an image generating section 180, an image output section 182, an audio output section 184, and a disk reading section 188.

The game computing section 110 is for performing various kind of game computation. The game computing section 110 is realized by, for example, executing a communication game program using a computer including a CPU, a ROM, and a RAN.

Details of the game computing section 110 will be described later.

Ph;c aaLiy section 180 converts, on the basis of data concerning positions and the like of respective objects in a three-dimensional game space obtained by the computation by the game computing section 110 and eye point positions set at the time, the respective objects in the three-dimensional game space into a proj ected plane of a predetermined eye-point coordinate system and generates a two-dimensional game image.

Image data corresponding to the two-dimensional game image generated is stored in a VRAM built in the image generating section 180. In the communication game system according to this embodiment, it is possible to play a competitive car race game. The respective objects in the three-dimensional game space include a vehicle serving as a player-character to which a player gives an action instruction by operating the game terminal 10 serving as an own apparatus and vehicles serving r -12 -as opponent characters (the other characters excluding the player-character) to which the other players give action instructions by operating the other game terminals 10.

The image output section 182 outputs video signals to the display 210 of the television monitor apparatus 200 by reading out image data, which are generated by the image generating section 180 and stored in the VRAM, in an order of scanning and converting the image data into NTSC signals.

The audio output section 184 converts various sound data outputted from the game computing section 110 into analog audio signals and outputs the audio signals to the speaker 220 in the television monitor apparatus 200.

Tht di rzii; cion i is for reading various data stored in the DVD-ROM 190 inserted therein. A communication game program including image data necessary for displaying high-definition graphics is stored in the DVD-ROM 190. The disk reading section 188 sends the communication game progra.rn read from the DVD-ROM 190 to the game computing section 110.

In this embodiment, the DVD-RQM 190 is used to record the communication game program and the like. However, other recording media such as a CD-ROM, a ROM cartridge and a memory card in which a semiconductor memory is used, and a hard disk device may be used.

The game computing section 110 includes a game processing section 120, a movement calculating section 130, a transmission-data storing section 140, a reception-data storing section 142, a transmitting section 144, a receiving (.

-13 -section 146, and a comrm.mication-frequency setting section 150.

The game processing section 120 performs processing for progress of the car race game according to this embodiment.

The movement calculating section 130 calculates movements of respective vehicles serving as three-dimensional objects participating in the car race game (including both the vehicle serving as the player-character corresponding to the game terminal 10 operated by the player and the vehicles serving as the opponent characters corresponding to the other game terminals 10). This movement calculation includes computation such as movements of the other vehicles viewed frorn ".irtz1 oiuc position corresponding to the player and judgment of collisions between the vehicles. In this embodiment, such a movement calculation is performed by the movement calculating section 130 and other various kinds of processing necessary for progress of the car race game are performed by the game processing section 120. However, all of these kinds of processing may be performed by either one of the game processing section 120 and the movement calculating section 130, and the other one of the game processing section l20andthemovementcalculatingsectionl3omaybeeljmjnated.

The transmission-data storing section 140 stores game data concerning the vehicle serving as the player-character calculated by the movement calculating section 130 and game data concerning the game progress outputted from the game processing section 120 as transmission data. This r -14 -transmission data is read out by the transmitting section 144 at predetermined timing and transmitted to each of the other game terminals 10 via the communication interface section 160 and the network 30. Game data is also sent from the other game terminals 10 via the network 30. The receiving section 146 receives the game data via the communication interface section 160 and stores the game data in the reception-data storing section 142. The movement calculating section 130 performs the movement calculation on the basis of the data (reception data) concerning the vehicles serving as the opponent characters stored in the reception-data storing section 142, a position of the vehicle serving as the plctyr-character at that point in time, and the like. This movement calculation is performed at a predetermined interval (e.g. an interval of 1/60 second). However, when the reception data of the opponent characters stored in the reception-data storingsection 142 is not updatedat this interval, a predicted value obtained by the last movement calculation is used instead of the reception data.

The communication-frequency setting section 150 variably sets a communication frequency of transmitting and receiving game data between the game terminal 10 corresponding to the own apparatus and the other game terminals 10 according to the contents of a game in progress or data concerning the state of play. For example, the communication-frequency setting section 150 sets a communication frequency on the basis of, say, a relative relation between the player-character and each -15 -of the plural opponent characters. Specifically, the communication-frequency setting section 150 sets a high communication frequency between the game terminal 10 corresponding to the player-character and the game terminals corresponding to the opponent characters highly likely to affect an action of the player-character and sets a low communication frequency between the game terminal 10 corresponding to the player-character and the game terminals corresponding to the other opponent characters. Therefore, a communication-frequency setting section 150 has the bandwidth setting section 152 and a transmission-timing judging section 154. The bandwidth setting section 152 sets allocationofbandwi 9thf lir. udorcommunicationbetween the game terminals 10 and the network 30 via the communication interf ace section 160. The lines include an uplink line used for transmitting data from the game terminals 10 to the network and a downlink line used for transmitting data from the network 30 to the game terminals 10. In this embodiment, the bandwidth setting section 152 performs processing forvariably allocating bandwidth of the uplink line to each of the game terminals 10 other than the own apparatus. Since the processing for allocation of the bandwidth of the uplink line is performed in the respective game terminals 10 using the same algorithm, allocation of bandwidth is also performed for the downlink line on which data is sent from the respective game terminals 10 serving as other apparatus to the game terminal serving as the own apparatus. On the basis of the -16 -bandwidth allocated to the respective game terminals 10 by the bandwidth setting section 152, the transmission-timing judging section 154 judges timing for transmitting game data from the transmitting section 144 for each of the game terminals 10.

The communication-frequency setting section 150 corresponds to a communication-frequency setting unit, the transmitting section 144, the receiving section 146, and the communication interface section 160 correspond to a communicating unit, the movement calculating section 130 corresponds to a character-action computing unit, the bandwidth setting section 152 corresponds to a bandwidth setting unit. ann tie tr ri.sion-timing judging section 154 corresponds to a transmission-timing judging unit. The game terminal 10 serving as the own apparatus corresponds to a communication game apparatus and the other game terminals 10 excluding the own apparatus correspond to the opponent game apparatuses (the other communication game apparatuses).

The competitive communication game system according to this embodiment has such a configuration. Operations of the competitive communication game systemwill be explained. The car race game according to this embodiment will be schematically described below.

(1) Any one of the game terminals 10 can request the game server 20 to hold a car race. A unit of the car race opened in response to this request is referred to as sess ion". The game terminal 10 requesting to hold the car race thereafter -17 -acts as a dealer to perform processing for progress of an overall operation of the car race.

(2) A maximum number of game terminals 10 allowed to participate in one session is determined in advance at the time of creation of the session. Participation in the session from the other game terminals 10 is accepted until the number of game terminals reaches the maximum number during an entry period.

(3) The car race is performed by the game terminals 10 (players) that indicate an intention to participate in the session. There are three states for a player: namely, "in a race", "watching", and "stand by in a lobby". "In a race" bLace in wtiich the player is actually participating in the car race. The player in this state actually operates the controller 300 provided in the game terminal 10 to virtually drive a vehicle. "Watching" is a state in which the player capable of participating in the car race is watching the race without participating in the race. The player in this state can watch details of the race from a predetermined camera position. "Stand by in a lobby" is a state in which, when the car race has already started, the player is waiting to participate in the next car race in the state of "in a race" or "watching". The player in this state can see the progress of the entire car race (e.g. the progress of the race may be indicated by a schematic diagram).

(4) The game terminal 10 recp.iests the game server 20 to hold a car race. However, after a session is created, the -18 -game terminal 10 acting as the dealer performs processing for progress of a car race game of this session. Transmission and reception of game data (e.g. positional information of vehicles serving as three-dimensional objects operatedby the respective players) among the game terminals 10 in any one of the states "ma race", "watching", and "standby ma lobby" are performed by one-to-one communication between the game terminals 10.

FIG. 3 is a flowchart showing an operationproceduremainly related to transmission of game data performed in the game terminal 10. It is assumed that a fixed communication bandwidth is allocated to the game data to be transmitted as a result of processing by the game processing section 120, and that bandwidth used f or transmitting game data concerning the player-character calculated by the movement calculating section 130 to the game terminals 10 other than the own apparatus are variably allocated within the remaining communication bandwidth. The operation procedure is for variably allocating the bandwidth.

The movement calculating section 130 calculates, on the basis of data concerning the vehicles serving as the respective opponent characters sent from the other game terminals 10 and stored in the reception-data storing section 142, a position of the vehicle serving as the player-character, and the like, movements of the respective vehicles serving as the player-character and the opponent characters (step 100). The term "the vehicle serving as the player-character" is I. -19 -hereinafter simply referred to as "player-character" and the term "the vehicles serving as the opponent characters" is hereinafter simply referred to as "opponent characters". Data indicating a position of the player-character and the like obtainedby this calculation is stored in the transmission-data storing section 140 (step 101) The bandwidth setting section 152 calculates distances between the player-character and the respective opponent characters (step 102). For example, linear distances between a center coordinate of the player-character and center coordinates of the respective opponent characters are calculated. The bandwidth setting section 152 calculates a iic&1 bd;;izt acn ot the game terminals 10 on the basis of the linear distances calculated (step 103). FIG. 4 is a diagram showing a specific example of the distance

calculation. FIG. 5 is a diagram showing a specific example of usable bandwidth calculated on the basis of distances shown in FIG. 4. In FIG. 4, A to E indicate five game terminals 10 that are participating in an identical session. In order to distinguish the game terminals 10 from one another, the game terminals 10 are represented as game terminals 1OA to bE. Each value shown in FIG. 4 indicates a distance between the player-character and each of the opponent characters corresponding to game terminals 10, respectively. For example, when attention is directed to the player-character corresponding to the game terminal 1OC, distances (30, 15, 40 and 10) between the player-character -20 -and opponent characters corresponding to the game terminals 1OA, lOB, 1OID and 1OE, respectively, are calculated by the bandwidth setting section 152 of the game terminal 1OC. The bandwidth setting section 152 of the game terminal 1OC sets, according to the distances between the player-character and the respective opponent characters, usable bandwidth corresponding to the game terminals 1OA, lOB, lCD and 1OE such that, for example, there are more usable bandwidth for the closer game terminals.

The game terminal 1OC shown in FIG. 4 is specifically explained as follows. As shown in FIG. 5, it is assumed that a bandwidth of 64 kbps is secured as a bandwidth usable for transmitting game data from the game terminal 1CC to the other game terminals 1OA, lOB, 1OD and bE. It is assumed that, in the bandwidth of 64 kbps, an area of 14 kbps indicated by F is fixedly used for transmitting a result of processing by the game processing section 120 and the like and the remaining bandwidth of 50 kbps is usable for transmission of game data obtained as a result of the calculation by the movement calculating section 130 and is allocated to the other game terminals 1OA, lOB, 1OD and iCE.

The bandwidth setting section 152 of the game terminal 1OC performs processing for dividing the remaining bandwidth (50 kbps) at a ratio proportional to inverses of the distances to the respective opponent characters. As shown in FIG. 4, since the distances from the player-character corresponding to the game terminal 1OC to the respective opponent characters -21 -corresponding to the other game terminals 1OA, lOB, 1OD, and 1OE are 30, 15, 40 and 10, processing for allocating the remaining bandwidth at a ratio of 1/30:1/15:1/40:1/10 is performed. As a result, as shown in FIG. 5, bandwidths of 7 kbps, 15 kbps, 6 kbps and 22 kbps are allocated to the game terminals 1OA, lOB, 1OD and 1OE, respectively.

The transmission-timing judging section 154 performs, for the game terminal 10 that is one of destinations to which the game data is transmitted, processing for accumulating the usable bandwidth calculated in step 103 (step 104). For the game terminal 1OC, there are the game terminals iDA, lOB, 1OD, and 1OE that are destinations to which the game data is transmitted. The accumulation of the usable bandwidth is performed for, for example, the game terminal lOA among the game terminals. The transmission-timing judging section 154 judges whether the accumulated value has exceeded a capacity of the transmission data (step 105).

For example, it is assumed that a capacity necessary for transmitting data obtained as a result of the calculation by the movement calculating section 130 is 60 bytes. It is also assumed that the operations shown in FIG. 3 are repeated at an interval of 1/60 second, which is an interval for updating a game image. In other words, when it is attempting to transmit data of 60 bytes at the interval of 1/60 second, a bandwidth of 60x8x60=28 kbps is required. The transmission-timing judging section 154 judges whether the accumulated value has exceeded 28 kbps which is necessary for transmission of the *1 -22 -game data. When the accumulated value has exceeded 28)thps, affirmative judgment is performed in the judgment in step 105.

The transmission-timing judging section 154 then sends a transmission instruction to the transmitting section 144.

response to this transmission instruction, the transmitting section 144 reads out game data stored in the transmission-data storing section 140 at that point and transmits the game data to the game terminal 1OA (step 106). Thereafter or, when the accumulated value has not exceeded the capacity necessary for data transmission, after negative judgment is performed in step 105, the transmission-timing judging section 154 judges whether there are other destination game terminals 10 to which the iz tiaii,miccea (step 107). When there are the other game terminals 10 (e.g. game terminals lOB, 1OD and bE when presence or absence of transmission is judged only for the game terminal 1OA), affirmative judgment is performed.

The transmission-timing judging section 154 returns to step 104 and the same processing is repeated for the other game terminals 10. When presence or absence of transmission is judged for all the destination game terminals bA, lOB, 1OD and bE, to which the game data is transmitted, and a transmission operation for the game terminals 10 meeting the conditionfortransmittingthegainedatais completed, negative judgment is performed in the judgment in step 107. A series of data transmission operation performed at the interval of 1/60 second is completed.

-23 -FIGS. GA and GB are diagrams showing specific examples of the data accumulation operation (step 104) and the transmission-timing judgment operation (step 105). As described above, the bandwidth of 28 kbps is required for transmissionof thegarnedata. It is assumed that thebandwidth setting section 152 of the game terminal 1OC has allocated 7 kbps as a usable bandwidth corresponding to the distance "30" to the opponent character corresponding to the game terminal 1OA at a certain timing. In the case where an accumulated value to that point in time is "0", as shown in FIG. 6A, an accumulated value at that time is 7 kbps. Since the accumulated value has not exceeded the data quantity 28 kbps, which t:h C niLIuii Eor data transmission, the game data is not transmitted to the game terminal 1OA at this point in time.

It is assumed that, when the distance between the game terminal 1OC and the opponent character corresponding to the game terminal l0Asuddenlydecreasedto "10" at the next timing after the elapseof 1/60 seconds, thebandwidthsettingsection 152 of the game terminal 1CC allocated 22 kbps as a usable bandwidth corresponding to this distance "10". Since the accumulated value to that point is "7 kbps", as shown in FIG. 6B, an accumulated value at that point becomes 7+22=2 9 kbps, which exceeds the condition of the data quantity being 28 kbps, at this point in time. Thus, the game data is transmitted to the game terminal 10A at this timing. Although the accumulated value is reset once the data is transmitted, a

I

-24 -value of the accumulated value exceeding 28 kbps at the time of transmission (1 kbps in the example shown in FIG. 6B) is used as an initial value of the accumulated value after being reset.

As described above, in the communication game system according to this embodiment, in performing transmission and reception of game data between the game terminal 10 serving as the own apparatus and the game terminals 10 serving as the plural opponent game apparatuses, it is possible to set a communication frequency for each of the apparatuses according to contents of a game. This makes it possible to increase a frequencyof acquiringgamedata concerningapart of opponent charactprc crin; t iiiiportance or the like, prevent actions from becoming unnatural by improving accuracy of prediction of the actions, and improve the realistic feeling of the game.

In particular, it is possible to reduce an interval of acquisition of game data concerning opponent characters having a close relative relation with the player-character and likely to affect an action of the player-character to reduce a degree of an impression that actions become unnatural. This applies specifically to opponent characters present near the player-character. Furthermore, for the other opponent characters, it is possible to reduce a data quantity of transmitted and received game data by extending an interval of acquisition of data.

Since the limited communication bandwidth is variably allocated to each of the game terminals 10 to effectively use -25 -the communication bandwidth, it is possible to secure a relatively large bandwidth for opponent characters having a relatively close relation and to realize prompt data acquisition.

The invention is not limited to the embodiment described above. Various modifications are possible without departing fromthescopeof the invention. Forexample, intheembodiment, the allocation of bandwidth proportional to inverses of distances among the respective characters is performed.

However, since a wider bandwidth has to be secured for shorter distance, the allocation of bandwidth may be proportional to inverses of squares of the distances or proportional to n''rcz c,f LOULS or cne distances. Furthermore, the distances may be classified as plural stages to allocate the same bandwidth to the game terminals 10 corresponding to the opponent characters classified as at the same stage.

In the embodiment, it is assumed that a capacity of the game data transmitted to the respective game terminals 10 as a result of the calculation by the movement calculating section is fixed (60 bytes). However, this value may be set larger as a distance is smaller and set smaller as a distance is larger.

It is also assumed that a total bandwidth usable for data transmission to all thegame terminals lOis fixed (at 64kbps).

However, since this value is changeable according to an environment of connection to the network 30 and the like, the value of the bandwidth may be variably set at a time when all the game terminals 10 participating in a session are determined.

-26 -For example, a communication bandwidth may be set for each session by, say, actually transmitting and receiving a fixed quantity of data to measure a bandwidth or checking an upper limit value of bandwidth usable for the respective game terminals 10.

In the embodiment, a communication frequency is set according to a distance between the player-character and the opponent character. However, when a degree of cooperation between the player-character corresponding to the game terminal 10 serving as the own apparatus and the opponent characters corresponding to the other game terminals 10 is set according to game contents, the conirnunication-frequency ting Ct1,ii 150 may set a communication frequency taking into account the degree of cooperation. For example, when the degree of cooperation is increased by, say, forming a group of specific players (the player-character and a specific opponent character), it is possible to increaseacornmunication frequency for the game terminal 10 corresponding to this opponent character. If the degree of cooperation is represented by a numerical value, it is possible to perform allocation of bandwidth by the bandwidth setting section 152 in the same manner as allocating the distances among the characters.

When parameters indicating individualities of the respective opponent characters are set in the opponent characters, the communication-frequency setting section 150 may set a communication frequency according to details of the -27 -parameters. For example, it is possible to acquire game data at a high communication frequency for a vehicle (corresponding to an opponent character) that has a high ability value and is capable of running quickly.

In the embodiment, the invention is applied to the competitive communication game system for playing a car race game. However, it is also possible to apply the invention to competitive communication game systems for playing games other than the car race game.

In the explanation of the embodiment, game data obtained as a result of the calculation by the movement calculating section 130 is transmitted to the respective game terminals 10. However, the same explanation applies when game data as a result of processing by the game processing section 120 is transmitted to the respective game terminals 10. For example, since it is unnecessary to transmit this game data frequently, a narrow bandwidth (which may be fixed) only has to be allocated to the respective game terminals 10. This makes it possible to substantially decrease a communication frequency (e.g. an interval of one second). fI*

Claims

-28 -Claims: 1. A communication game apparatus to which other plural

communication game apparatuses are connectable via communication lines, comprising: a communication-frequency setting unit for variably setting a communication frequency of transmitting and receiving game data between the communication game apparatus and each of the other plural communication game apparatuses according to the contents of a game in progress or data concerning the state of play; and a communicating unit for performing transmission and reception of the game data between the communication game Ci of e ottier plural communication game apparatuses at the communication frequency set by the communication-frequency setting unit.

2. The communication game apparatus according to claim 1, including a character-action computing unit for computing, on the basis of the game data received by the communicating unit, an action of a player-character corresponding to said communication game apparatus and actions of the other plural characters corresponding to the other plural communication game apparatuses, respectively, wherein the communication-frequency setting unit is arranged to set a communication frequency on the basis of a relative relation between the player- character and each of the other plural characters.

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-29 - 3. The communication game apparatus according to claim 2, wherein the communication-frequency setting unit is arranged to set a communication frequency between the communication game apparatus and the other communication game apparatuses corresponding to the other characters within a specified distance to the player-character and is arranged to set a lower communication frequency between the communication game apparatus and the other communication game apparatuses corresponding to the other characters at or beyond the specified distance from the player-character.

 TL Lultuuunicaclon game apparatus according to claim 2, wherein the communication-frequency setting unit is arranged to set a communication frequency between the communication game apparatus and the other communication game apparatuses corresponding to the other characters to which substantially affect an action of the player-character and is arranged to set a lower communication frequency between the communication game apparatus and the other communication game apparatuses corresponding to the other characters which do not substantially affect the action of the player-character.

5. The communication game apparatus according to claim 2, wherein the apparatus includes means for arranging a predetermined communication bandwidth to be set for the

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-30 -transmission and/or the reception of game data via the communication lines, and the communication-frequency setting unit includes a bandwidth setting unit for setting a proportion of a bandwidth to be allocated to each of the other plural communication game apparatuses to the comrnunicationbandwidth according toa level of a communication frequency.

6. The communication game apparatus according to claim 5, wherein the apparatus includes means for arranging a fixed value to be set for one traffic of game data transmitted and received between trie communication game apparatus and each of the other plural communication game apparatuses, and the communication-frequency setting unit includes a transmission-timing judging unit for accumulating values of the bandwidth, which are set by the bandwidth setting unit, for the respective other communication game apparatuses and is arranged to judge that transmission timing for the game data has come when the accumulated value reaches the fixed value.

7. The communication game apparatus according to claim 6, wherein the transmission-timing judging unit is arranged to perform a judging operation at a predetermined time interval.

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-31 - 8. The communication game apparatus according to any preceding claim, including means for setting a degree of cooperation between the player-character corresponding to said communication game apparatus and each of the other plural characters corresponding to the other plural communication game apparatuses according to game contents, enabling the communication-frequency setting unit to set a communication frequency taking into account the degree of cooperation set.

9. The communication game apparatus according to any preceding claim, wherein the apparatus includes means for arranging parameters iuciicacing individualities of the respective other characters to be set for each of the other plural characters corresponding to the other plural communication game apparatuses, and the communication-frequency setting unit is arranged to set a communication frequency according to the parameters.

10. A program for a computer comprising the communication game apparatus according to any preceding claim, wherein the program is arranged to cause: the communication-frequency setting unit to variably set the communication frequency of transmitting and receiving game data between the communication game apparatus and each of the other plural communication game apparatuses according to contents of a game in progress; and

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-32 -the communicating unit to perform transmission and reception of the game data between the communication game apparatus and each of the other plural communication game apparatuses at the communication frequency set by the communication-frequency setting unit.

11. A communication game system including a plurality of said communication game apparatuses according to any preceding claim, the communication game apparatuses being connected to one another via a network.

12. A method of transmitting and receiving game data in a roti3ji ne ysceni in which plural communication game apparatuses are connected to one another via a network, the communication game method comprising: a communication-frequency setting step of variably setting, in each of the plural communication game apparatuses, a communication frequency of transmitting and receiving game data between one said communication game apparatus and each of the other plural communication game apparatuses according to contents of a game in progress; and a communicating step of performing transmission and reception of the game data between one said communication game apparatus and each of the other plural communication game apparatuses at the communication frequency set in the communication-frequency setting step.

-33 - 13. A computer game apparatus constructed substantially as herei.nbefore described with reference to the accompanying drawings.

14. A computer game system constructed substantially as hereiribefore described with reference to the accompanying drawings.

15. A computer game program substantially as hereinbefore described with reference to the accompanying drawings.

16. A method of transmitting and receiving game data in a iLtj yorne system substantially as hereinbefore described with reference to the accompanying drawings.