JP2005039389A - Mobile terminal, server, and information distribution system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize an information distribution system that does not transmit distribution information during movement by a vehicle and correctly transmit the distribution information after a user gets off the vehicle without any special operation done by the user. <P>SOLUTION: A mobile terminal 100 is equipped with a positioning means of acquiring a current position, a current time acquiring means of acquiring current time, a moving speed calculating means of calculating the moving speed of the mobile terminal from the acquired current position and current time, and a movement discriminating means which decides that the user is moving in the vehicle when the calculated moving speed is lower than a fixed speed continuously for a certain time. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information distribution system using a mobile terminal and a server.
[0002]
[Prior art]
An information distribution system that distributes information related to the surrounding area when the current position of the mobile terminal enters a specified area using a mobile terminal having a positioning function has already been proposed (see, for example, Patent Document 1). . In the information distribution system, there is a possibility that unnecessary information may be transmitted only by the condition that it enters the specified area.
This is a system that distributes information when conditions such as time specified by the user are satisfied.
[0003]
Further, in order not to distribute unnecessary information for the user while the user is moving, the location information is periodically uploaded to the server, and the transportation facility on which the user is boarded is identified based on the location information. There has already been proposed an information distribution system that determines that the destination has arrived when the position information has not been updated according to the operation schedule and distributes information around the destination (see, for example, Patent Document 2).
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 2002-216021 [Patent Document 2]
Japanese Patent Laid-Open No. 2003-18633
[Problems to be solved by the invention]
In the first conventional information distribution system, if the user sees the distribution conditions specified by the user even if he / she is moving on a vehicle, information on the surrounding area is distributed, which is unnecessary and unnecessary for the user. There was a problem that information was stored in the mobile terminal.
In addition, in the second conventional information distribution system, if the transportation does not proceed according to the operation schedule, it may be erroneously determined that the destination has arrived, When moving on a vehicle such as a motorcycle or bicycle, there is a problem that it is not determined that the vehicle is moving correctly.
[0006]
The present invention has been made in view of the above-mentioned problems, and its purpose is to reduce unnecessary transmission of unnecessary area information at a point that has passed to the destination, without complicated operation such as inputting the destination. Detecting arrival at the destination and delivering useful distribution information to the user after arriving at the destination, that is, detecting whether the vehicle is moving without complicated operations, and confirming that the vehicle has stopped moving An object is to provide an information distribution system that distributes useful distribution information to a user when it is sensed.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, in the present invention, for a portable terminal that displays received distribution information,
Position positioning means that acquires position information that can identify the current position, current time acquisition means that acquires the current time, movement speed calculation means that calculates the movement speed of the mobile terminal from the acquired current position and current time, and a constant movement speed The movement determination means for determining that the vehicle is moving when the following time exceeds a certain time, and only when the movement determination means determines that the vehicle is not moving on the vehicle, It is comprised from the positional information notification means which transmits the positional information containing.
[0008]
In the present invention, first, the current position and the current time are acquired by the position positioning means and the current time acquisition means. Next, the moving speed of the mobile terminal is calculated from the current position and the current time acquired by the moving speed calculating means. The calculated movement speed is monitored, and only when the movement determination means determines that the vehicle is not moving, the position information notification means transmits the position information data to the information distribution server. And the information delivery server which received the said positional information data transmits delivery information to the portable terminal which transmitted the said positional information data.
[0009]
As a result, distribution information is not distributed while traveling on vehicles such as cars, motorcycles, and bicycles, as well as other transportation systems that are moving according to the operation schedule. There is a merit that the distribution information which seems to be less is reduced, and communication costs and mobile terminal resources can be reduced. In addition, there is an advantage that convenience for the user is improved because it is autonomously determined whether or not the user is moving on a vehicle without complicated operation of the user.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
First, an overall configuration as an embodiment of the present invention will be described with reference to FIG.
The portable terminal 100 has a position information acquisition function, and can periodically acquire position information and calculate a moving speed from the position information. In addition, the mobile terminal 100 has an Internet connection function, can communicate with the information distribution server 200, can transmit location information to the information distribution server 200, and can receive regional information from the information distribution server 200. The mobile terminal 100 is, for example, a mobile phone or a PDA (Personal Digital Assistant).
[0011]
The information distribution server 200 has a distribution information table 400 and an Internet connection function, acquires position information from the portable terminal, and determines that the current position is within the designated area. A server that distributes regional information to 100.
When the mobile terminal 100 moves from the position A to the position B, the position information from the position A of the mobile terminal 100 is calculated from the position information at the position A, the position information at the position B, and the time taken from the position A to the position B. The average moving speed between B is calculated. When the average moving speed is below a certain speed for a certain period (for example, when the mobile terminal 100 satisfies the above condition at the position B), it is determined that the mobile terminal 100 is not on the vehicle, The position information data 300 at the position B of the terminal 100 is transmitted to the information distribution server 200. The information distribution server 200 that has received the position information data 300 from the mobile terminal searches the distribution information table 400 for distribution information such that the received position information data is included in an area where distribution is desired, and the distribution corresponding to the search is performed. Information is transmitted to the mobile terminal 100. Thereby, even if it moves with a vehicle without an operation schedule, it judges that it is moving correctly and distribution information is not transmitted to a portable terminal unnecessarily.
[0012]
Further, in the above example, in order to search for the corresponding distribution information from the distribution information table 400, the search condition is only the condition of the place where the distribution is desired. In addition, a condition for a time zone in which distribution is desired may be added, and distribution information that satisfies both conditions may be transmitted to the mobile terminal 100.
Further, in FIG. 1, the mobile terminal 100 calculates the moving speed and determines whether or not the mobile terminal 100 is moving. However, as shown in FIG. The information distribution server 200 may determine whether the mobile device 100 is moving by transmitting to the distribution server 200 and calculating the moving speed of the mobile terminal 100 by the information distribution server 200.
[0013]
Next, the hardware configuration of the mobile terminal 100 will be described with reference to FIG.
Reference numeral 101 in FIG. 3 denotes a CPU (Central Processing Unit). The CPU 101 executes various programs such as a control process for peripheral units such as a display device, an input device, a communication unit, and a positioning unit, a calculation process for the movement speed of the mobile terminal 100, and a determination process for whether or not the mobile terminal 100 is moving. Reference numeral 102 denotes a ROM (Read Only Memory). The ROM 102 stores various programs and data executed by the CPU 101 such as peripheral control processing and movement speed calculation processing. Reference numeral 103 denotes a RAM (Random Access Memory). The RAM 103 is used to read and execute various programs executed by the CPU 101 such as peripheral control processing and movement speed calculation processing from the ROM 102, and temporarily store data when the program is executed.
[0014]
Reference numeral 104 denotes a display device. The display device 104 is used to display distribution information distributed from the information distribution server 200. The display device 104 is, for example, an LCD (Liquid Crystal Display). Reference numeral 105 denotes an input device. The input device 105 is used when switching distribution information to be displayed. The input device 105 is, for example, a button, a joystick, or a numeric keypad. Reference numeral 106 denotes a communication unit. The communication unit 106 is used for transmitting position information to the information distribution server 200 on the Internet and receiving regional information distributed from the information distribution server 200. The communication unit 106 is, for example, a wireless communication device. Reference numeral 107 denotes a positioning unit. The positioning unit 107 is used to measure the current position of the mobile terminal 100, and is, for example, a GPS (Global Positioning System). Reference numeral 108 denotes a time acquisition unit. The time acquisition unit 108 is used to acquire the current time.
[0015]
Next, the position information data 300 transmitted from the mobile terminal 100 to the information distribution server 200 will be described with reference to FIG.
The position information data 300 includes current position data 301 and positioning time data 302. The current position data 301 stores a result of acquiring the current position by the positioning unit 107 of the mobile terminal 100, for example, “N: 35.244.18.9, E: 139.32.30.9”. Such character string data is stored. The positioning time data 302 stores the time when the data stored in the current position data 301 is acquired. For example, character string data of a time such as “15:30” is stored.
[0016]
Next, the distribution information table 400 held by the information distribution server 200 will be described with reference to FIG.
The distribution information table 400 includes index data 401, distribution area condition data 402, and distribution information data 404. The index data 401 is a code that uniquely identifies each record. The distribution area condition data 402 stores a region where distribution is desired. For example, it is desired to distribute a region within a radius of 1000 m centering on N: 35.248.18.0, E139.32.30.0. In this case, it is stored as character string data such as “Area Condition = N: 35.24.18.0, E139.32.30.0, 1000 m”. The distribution information data 404 stores data itself desired to be distributed to the mobile terminal.
[0017]
In addition, in order to search for the corresponding distribution information from the distribution information table 400, not only the condition of the place where the distribution is desired but also the condition of the time zone in which the distribution is desired is added, and the distribution satisfying both conditions When transmitting information to the portable terminal 100, distribution time condition data 403 is added to the distribution information table 400 of FIG. 5, as shown in FIG. The delivery time condition data 403 stores conditions for a time zone in which delivery is desired. For example, when delivery is desired in a time zone between 11:00 and 21:00, “Time Condition = 11: 00-21” : 0 "is stored as character string data. Next, position information transmission processing S500 for transmitting position information data to the information distribution server 200 when it is determined that the mobile terminal 100 is not moving will be described with reference to FIGS.
[0018]
Assuming that the user is moving in a car and has arrived at the destination and then got out of the car, the threshold for moving speed is 10 km / h and the threshold for elapsed time is 1.5 minutes as thresholds used in the movement determination process. Is set. Further, the current position and current time acquired during the movement determination process will be described with reference to the flowchart of FIG. 7 assuming that values from position A to position E in FIG. 8 have been acquired.
[0019]
First, when the position information notification process of the mobile terminal 100 is started, the current position and the current time of the mobile terminal 100 are first acquired. At this time, if the mobile terminal 100 is at the position A, the current position is acquired as N: 35.244.18.9, E: 139.32.30.9, and the current time is acquired as 15:19 ( Step S501). Next, the elapsed time is initialized to zero. The elapsed time is used when determining whether or not the vehicle is moving (step S502). Then, the current position of the mobile terminal 100 and the current time are acquired again. At this time, the current position and the current time are stored in another variable as the previous acquisition result, and after the storage, the current position and the current time are acquired. Assuming that the mobile terminal 100 is at the position B during the execution of this process, the current position is acquired as N: 35.24.1.1, E: 139.33.27.0, and the current time is acquired as 15:20 ( Step S503).
[0020]
Next, the moving speed of the mobile terminal 100 is calculated using the current position and current time acquired in step S503 and the current position and current time acquired previously. First, the moving speed is obtained after calculating the moving distance from the current position information and the moving time from the current time information. In this example, the movement distance between the position A and the position B and the movement time may be obtained. Therefore, when the straight line distance is calculated from the latitude / longitude, the movement time is 1 minute. Therefore, the moving speed between the position A and the position B is calculated as 0.6 km / (1/60) h = 36 km / h (step S504). Next, it is determined whether or not the movement speed calculated in step S504 exceeds a set speed (threshold value). In this example, since the threshold value of the moving speed is 10 km / h, the value 36 km / h calculated in step S504 greatly exceeds the threshold value, so the elapsed time is initialized (step S502), The process returns to the process of acquiring the position and the current time (step S503) (step S505).
[0021]
When the current position and the current time are acquired after storing the current position and the current time acquired in the previous time, in this example, since the mobile terminal 100 is at the position C, the current position is N: 35.23.52.0. , E: 139.332.18.6, and the current time is acquired as 15:21 (step S503). When the moving speed (moving speed between the position B and the position C) is obtained again, in this example, the moving distance is 400 m and the moving time is 1 minute, so 0.4 km / (1/60) h = 24 km / H is calculated (step S504). Therefore, since the movement speed calculated this time is a movement speed that exceeds the threshold of 10 km / h again, the elapsed time is initialized to 0 (step S502), and the process returns to step S503 (step S505). ).
[0022]
Next, when the current position and the current time are acquired, in this example, since the vehicle is exited and is at position D, the current position is N: 35.23.49.8, E: 139.33.14.4, The current time is acquired as 15:22 (step S503). When the moving speed of the mobile terminal 100 (moving speed between the position C and the position D) is obtained, in this example, the moving distance is 100 m and the moving time is 1 minute, so 0.1 km / (1/60) h = 6 km / h is calculated (step S504). Since the calculated moving speed falls below the threshold of moving speed, 10 km / h, the process proceeds to the process of adding the elapsed time (step S506) (step S505). Since the movement speed may fall below the threshold due to the normal occurrence such as waiting for a signal, the time (elapsed time) when the movement speed falls below the threshold is calculated. Here, the travel time obtained when the travel speed is calculated in step S504 is added to the elapsed time. The elapsed time in this example is 0 minute (initial value) +1 minute (movement time) = 1 minute (step S506).
[0023]
Next, it is determined whether the elapsed time has exceeded a threshold, and if it has exceeded the threshold, it is determined that the destination has been reached. In this example, the threshold is 1.5 minutes, but the elapsed time is 1 minute and does not exceed the threshold. Therefore, the process returns to the process of acquiring the current position and current time (step S503) (step S507). If the current position and the current time are acquired again, in this example, since the user is at position E (the same position as position D), the current position is N: 35.23.49.8, E: 139.32.14.4. The current time is acquired as 15:23 (step S503). Therefore, when the moving speed of the mobile terminal 100 (moving speed between the position D and the position E) is obtained, in this example, the moving distance is 0 m and the moving time is 1 minute, so that 0 km / (1/60) h = 0 km / h is calculated (step S504). Therefore, since the threshold value of the moving speed is again below 10 km / h, the process proceeds to the process of adding the elapsed time (step S506) (step S505).
[0024]
When the elapsed time is added, in this example, 1 minute (value of variable) +1 minute (movement time) = 2 minutes (step S506). Therefore, since the elapsed time threshold has been exceeded, it is determined that the vehicle has got off the vehicle, and the process proceeds to the process of notifying the information distribution server 200 of the location information data (step S508) (step S507). In the process of notifying the information distribution server 200 of the position information data, the communication unit 106 of the portable terminal 100 is used to notify the information distribution server 200 on the Internet of the latest current position data (position information data), and the process is performed. Finish (step S508). According to the above procedure, it is determined whether or not the mobile terminal 100 is moving, and when it is determined that the mobile terminal 100 has got off the vehicle, the position information is transmitted to the information distribution server 200.
[0025]
Next, an information distribution process 600 executed by the information distribution server 200 will be described with reference to FIG.
When the information distribution server 200 receives the position information data and starts the information distribution processing 600, first, the current position of the mobile terminal is acquired from the received position information data (step S601). Then, search is made for distribution information in which the current position acquired in step S601 falls within an area where distribution is desired, and a list of corresponding distribution information is created (step S602). Next, distribution information data is created from the list of distribution information created in step S602, and the distribution information data is transmitted to the mobile terminal (step S603). The information distribution server 200 transmits distribution information data to the mobile terminal 100 by the above procedure.
[0026]
In addition, in the information distribution process 600, in order to search for the corresponding distribution information from the distribution information table 400, not only the condition of the place where the distribution is desired but also the condition of the time zone where the distribution is desired is added, When transmitting distribution information satisfying both conditions to the portable terminal 100, as shown in FIG. 10, in step S602, the current position acquired in step S601 is within the area where distribution is desired, and the current time is Then, the distribution information within the time zone in which distribution is desired is searched, and the processing is changed to create a list of corresponding distribution information.
[0027]
Furthermore, the mobile terminal 100 always transmits position information to the information distribution server 200, and the information distribution server 200 calculates the moving speed of the mobile terminal 100 to determine whether the mobile terminal 100 is moving. 11, the processing on the portable terminal 100 side, the position information notification processing 500, the processing on the information distribution server 200 side, and the information distribution processing 600 are as shown in FIGS. 11 and 12.
[0028]
In addition, in the information distribution processing 600 of FIG. 12, in order to search for the corresponding distribution information from the distribution information table 400, not only the condition of the place where the distribution is desired but also the condition of the time zone where the distribution is desired. In the case where the distribution information that satisfies both conditions is transmitted to the portable terminal 100, as shown in FIG. 13, the current position acquired in step S601 is within the area where the distribution is desired, as shown in FIG. Search for distribution information whose current time is within the desired time zone for distribution, and change to processing that creates a list of corresponding distribution information.
[0029]
Thus, according to the mobile terminal, server, and information distribution system of the present invention, the moving speed of the mobile terminal 100 is calculated from the current position and the current time acquired by the mobile terminal 100, and the moving speed is less than a certain value. When the set time exceeds a certain time, it can be determined that the vehicle has got off the vehicle, and corresponding distribution information can be sent to the mobile terminal 100. As a result, whether or not you are traveling on a vehicle, not only when you are on a train or bus that goes according to the schedule, but also when you are on a variety of other transportation, vehicles, motorcycles, bicycles, etc. Can be detected and unnecessary delivery information can be prevented from being transmitted without any special operation by the user while moving on the vehicle, improving user convenience, reducing communication costs and carrying A portable terminal, a server, and an information distribution system that can reduce the consumption resources of the terminal can be obtained.
[0030]
As described above, according to the mobile terminal, the server, and the information distribution system according to the present invention, the mobile terminal that can acquire the current position and the current time calculates the moving speed of the mobile terminal from the current position and the current time acquired. If the speed falls below a certain speed for more than a certain period of time, it is determined that the vehicle has got off the vehicle autonomously, and the distribution information around the current position is distributed to the mobile terminal. It is possible to determine whether or not you are moving even if you are not using a public transportation system or if you are on a vehicle such as a car, motorcycle, or bicycle, so you can reduce communication costs and resources of mobile devices. effective. Further, since unnecessary distribution information can be prevented from being transmitted without any special user operation, there is an effect that convenience for the user is improved.
[0031]
【The invention's effect】
As described above, according to the mobile terminal, the server, and the information distribution system according to the present invention, it is possible to reduce the communication cost and the consumption resource of the mobile terminal, and to improve the convenience for the user.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an outline of an embodiment of an information distribution system realized by calculating a moving speed with a portable terminal according to the present invention and determining whether or not moving;
FIG. 2 is an explanatory diagram showing an outline of an embodiment of an information distribution system realized by calculating a moving speed by the information distribution server of the present invention and determining whether or not the vehicle is moving.
FIG. 3 is an explanatory diagram illustrating a hardware configuration of a mobile terminal according to an embodiment of the present invention.
FIG. 4 is an explanatory diagram showing a data configuration of position information data transmitted from the mobile terminal to the information distribution server according to the embodiment of the present invention.
FIG. 5 is an explanatory diagram showing a data configuration of a distribution information table held by the information distribution server in an embodiment in which the information distribution server searches for distribution information only by distribution area conditions in the present invention.
FIG. 6 is an explanatory diagram showing a data configuration of a distribution information table held by the information distribution server in the embodiment in which the information distribution server searches for distribution information by both the distribution area condition and the distribution time condition in the present invention. .
FIG. 7 is a flowchart for explaining position information notification processing used in a mobile terminal in an embodiment of an information distribution system for calculating a moving speed and determining whether the mobile terminal is moving or not in the mobile terminal of the present invention.
FIG. 8 is an explanatory diagram showing position information and time at each position of a mobile terminal that moves.
FIG. 9 is a flowchart illustrating information distribution processing used by the information distribution server in the embodiment of the information distribution system that calculates the moving speed by the mobile terminal of the present invention and determines whether or not it is moving.
FIG. 10 is a diagram showing an example of an information distribution system for calculating a moving speed with a portable terminal according to the present invention and determining whether or not the mobile terminal is moving; transmitting distribution information when not only a distribution area condition but also a distribution time condition is satisfied. It is the flowchart explaining the information delivery process used with the information delivery server to do.
FIG. 11 is a flowchart illustrating a position information notification process used in a portable terminal in an embodiment of an information distribution system that calculates a moving speed by the information distribution server of the present invention and determines whether or not it is moving. .
FIG. 12 is a flowchart illustrating an information distribution process used in an information distribution server in an embodiment of an information distribution system that calculates a moving speed by the information distribution server of the present invention and determines whether or not the vehicle is moving. .
FIG. 13 is a diagram showing an example of an information distribution system in which a moving speed is calculated by the information distribution server of the present invention and whether or not moving is determined, and distribution information is displayed when not only distribution area conditions but also distribution time conditions are satisfied. It is the flowchart explaining the information delivery process used with the information delivery server to transmit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 ... Portable terminal, 101 ... CPU, 102 ... ROM, 103 ... RAM, 104 ... Display apparatus, 105 ... Input device, 106 ... Communication part, 107 ... Positioning part, 108 ... Time acquisition part, 200 ... Information distribution server, 300 ... position information data, 400 ... distribution information table, 500 ... position information notification processing, 600 ... information distribution processing

Claims (11)

In a mobile device that displays received distribution information,
Position positioning means for acquiring the current position;
Speed information acquisition means for acquiring speed information of the mobile terminal;
A movement determination unit that determines whether the mobile terminal is moving using the speed information acquisition unit;
A portable terminal comprising: position information notifying means for transmitting position information including the current position of the portable terminal only when the movement determining means determines that the mobile terminal is not moving. The mobile determination means determines that the mobile terminal is not moving when the speed information acquired by the speed information acquisition means continues for a predetermined time or more when the speed information is below a predetermined speed. 1. The mobile terminal according to 1. In a mobile device that displays received distribution information,
Position positioning means for acquiring the current position;
Current time acquisition means for acquiring the current time;
A moving speed calculating means for calculating a moving speed of the portable terminal from the current position and the current time acquired by the position measuring means and the current time acquiring means;
A movement determination unit that determines that the mobile terminal is not moving when a time during which the movement speed acquired by the movement speed calculation unit is equal to or less than a certain speed continues for a certain period of time;
A portable terminal comprising position information notifying means for transmitting position information including the current position of the portable terminal only when the movement determining means determines that the mobile terminal is not moving. A portable terminal according to claim 2;
Distribution information holding means for holding distribution information and a distribution information table for storing distribution area conditions for limiting distribution areas;
Position information receiving means for receiving position information;
Distribution information search means for searching for distribution information satisfying a distribution area condition in the position information acquired by the position information receiving means from the distribution information table;
An information distribution system comprising: an information distribution server having distribution information transmission means for transmitting distribution information extracted by the distribution information search means. A portable terminal according to claim 3;
Distribution information holding means for holding distribution information and a distribution information table for storing distribution area conditions for limiting distribution areas;
Position information receiving means for receiving position information;
Distribution information search means for searching for distribution information satisfying a distribution area condition in the position information acquired by the position information receiving means from the distribution information table;
An information distribution system comprising: an information distribution server having distribution information transmission means for transmitting distribution information extracted by the distribution information search means. A portable terminal according to claim 2;
Distribution information holding means for holding distribution information, a distribution area condition for limiting a distribution area, a distribution information table for storing a distribution time condition for limiting a time period for distribution;
Current time acquisition means capable of acquiring the current time;
Position information receiving means for receiving position information;
From the distribution information table, the distribution information such that the position information acquired by the position information receiving means satisfies the distribution area condition and the current time acquired from the current time means satisfies the distribution time condition. A delivery information search means for searching;
An information distribution system comprising: an information distribution server having distribution information transmission means for transmitting distribution information extracted by the distribution information search means. A portable terminal according to claim 3;
Distribution information holding means for holding distribution information, a distribution area condition for limiting a distribution area, a distribution information table for storing a distribution time condition for limiting a time period for distribution;
Current time acquisition means capable of acquiring the current time;
Position information receiving means for receiving position information;
From the distribution information table, the distribution information such that the position information acquired by the position information receiving means satisfies the distribution area condition and the current time acquired from the current time means satisfies the distribution time condition. A delivery information search means for searching;
An information distribution system comprising: an information distribution server having distribution information transmission means for transmitting distribution information extracted by the distribution information search means. In an information distribution server that receives position information data including position information representing a current position of a portable terminal and positioning time representing a time at which the position information is acquired from the portable terminal, and transmits distribution information to the portable terminal.
Distribution information holding means for holding distribution information and a distribution information table for storing distribution area conditions for limiting distribution areas;
Position time acquisition means for acquiring position information and time of positioning from the received position information data;
A moving speed calculating means for calculating a moving speed of the mobile terminal from the position information and positioning time acquired from the position time acquiring means;
A movement determination unit that determines that the mobile terminal is not moving when a time during which the movement speed acquired by the movement speed calculation unit is equal to or less than a certain speed continues for a certain period of time;
Distribution information that searches for distribution information satisfying the distribution area condition in the position information acquired by the position time acquisition means from the distribution information table only when it is determined that the movement determination means does not move. Search means;
An information distribution server comprising distribution information transmission means for transmitting distribution information extracted by the distribution information search means. A portable terminal that transmits position information data including position information representing a current position of the portable terminal and a positioning time representing a time at which the position information is acquired;
An information distribution system comprising the information distribution server according to claim 8. It has a current time acquisition means for acquiring the current time,
The distribution information holding means holds a distribution information table for storing distribution information, a distribution area condition for restricting a distribution area, and a distribution time condition for restricting a distribution time zone, and the distribution information search means includes the distribution information Search the table for distribution information that satisfies the distribution area condition and the current time acquired from the current time unit satisfies the distribution time condition with the position information acquired by the position information receiving unit. The information distribution server according to claim 8. A portable terminal that transmits position information data including position information representing a current position of the portable terminal and a positioning time representing a time at which the position information is acquired;
An information distribution system comprising the information distribution server according to claim 10.

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