JP2019075717A - Wireless communication terminal and program - Google Patents

Abstract

To provide a wireless communication terminal and a program capable of presenting a user of the wireless communication terminal with at least one of appropriate orientation and holding manner of the wireless communication terminal when the wireless communication terminal communicates with a communication partner.SOLUTION: A program causes a wireless communication terminal 100 provided with an antenna to function as a model information acquisition unit that acquires model information of the wireless communication terminal, a pattern acquisition unit that acquires a directivity pattern of an antenna corresponding to model information, a position acquisition unit that acquires the position of the wireless communication terminal, an orientation acquisition unit that acquires the orientation of the wireless communication terminal, a position information acquisition unit that acquires position information indicating the position of the communication partner of the wireless communication terminal, and a presentation unit that presents at least one of the recommended orientation and holding manner of the wireless communication terminal on the basis of the position and orientation of the wireless communication terminal, the position information, and the directivity pattern.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a wireless communication terminal and a program.

There have been known techniques for making it easy to identify the direction in which a mobile communication terminal can appropriately receive a broadcast wave (see, for example, Patent Documents 1 and 2).
[Prior art document]
[Patent Document]
[Patent Document 1] JP-A-2013-110702 [Patent Document 2] JP-A-2013-110703

  When the wireless communication terminal communicates with the communication partner, it is desirable that the user of the wireless communication terminal can be presented with at least one of the orientation and holding manner of the wireless communication terminal that is appropriate. As a communication counterpart of the wireless communication terminal, a base station, a relay station, a relay radio station and the like can be exemplified. The wireless communication terminal may communicate with a communication partner located on the ground or may communicate with a communication partner located in the sky. As communication partners located in the sky, a balloon, a drone, a stratosphere platform, a communication satellite, etc. can be exemplified.

  According to a first aspect of the present invention, a program is provided. The program may cause the wireless communication terminal including the antenna to function as a model information acquisition unit that acquires model information of the wireless communication terminal. The program may cause the wireless communication terminal to function as a pattern acquisition unit that acquires the directivity pattern of the antenna corresponding to the model information. The program may cause the wireless communication terminal to function as a position acquisition unit that acquires the position of the wireless communication terminal. The program may cause the wireless communication terminal to function as a direction acquisition unit that acquires the direction of the wireless communication terminal. The program may cause the wireless communication terminal to function as a position information acquisition unit that acquires position information indicating the position of the communication partner of the wireless communication terminal. The program presents the wireless communication terminal at least one of the orientation and holding manner of the wireless communication terminal to be recommended based on the position and orientation of the wireless communication terminal, the directivity pattern, and the position information. It may function as a part.

  The program may cause the wireless communication terminal to further function as a model information transmission unit for transmitting the model information to the server, and the pattern acquisition unit may set the directivity pattern of the antenna corresponding to the model information. May be received from the server. The pattern acquisition unit is the directivity pattern corresponding to the model information acquired by the model information acquisition unit from a pattern storage unit that stores a plurality of directivity patterns corresponding to a plurality of model information included in the wireless communication terminal. May be read out. The program causes the wireless communication terminal to further function as a position information receiving unit that receives the position information of the communication partner, and a position information storage unit that stores the position information received by the position information receiving unit. The program may be a program, and the position information acquisition unit may acquire the position information from the position information storage unit. The position information receiving unit may periodically or irregularly receive the position information of the communication partner.

  The program may further cause the wireless communication terminal to function as an application identification unit that identifies an application being executed by the wireless communication terminal, and the presentation unit is further based on the application identified by the application identification unit. At least one of the recommended orientation and holding manner of the wireless communication terminal may be presented. The program may cause the wireless communication terminal to further function as a profile acquiring unit for acquiring a user profile of a user who uses the wireless communication terminal, and the presenting unit recommends based on the user profile. At least one of the orientation and holding manner of the wireless communication terminal may be presented. The user profile may include at least one of gender and age of the user. The program may further cause the wireless communication terminal to function as an earphone determining unit that determines whether an earphone is connected to the wireless communication terminal, and the presenting unit may connect the earphone to the wireless communication terminal. Further, based on whether or not the wireless communication terminal is recommended, the orientation and / or the manner of holding the wireless communication terminal may be presented. The program may be a program for causing the wireless communication terminal to further function as a communication method acquisition unit for acquiring the communication method of the wireless communication terminal, and the presentation unit is recommended based on the communication method. At least one of the orientation and holding manner of the wireless communication terminal may be presented.

  The presentation unit receives the reception level of the radio wave from the communication partner based on the direction in which the communication partner is located based on the position of the wireless communication terminal, the orientation of the wireless communication terminal, and the directivity pattern. The orientation of the wireless communication terminal and / or the manner of holding the wireless communication terminal may be presented. The presentation unit is configured to receive the radio wave from the wireless communication terminal based on a direction in which the communication partner is located with respect to the position of the wireless communication terminal, an orientation of the wireless communication terminal, and the directivity pattern. The orientation and / or the manner of holding the wireless communication terminal may be presented in which the reception level of the relay station is higher. The communication partner may be at least one of a balloon, an unmanned aerial vehicle, a communication satellite, and a stratosphere platform for providing a radio communication service to a radio communication terminal on the ground by circulating the stratosphere.

  According to a second aspect of the present invention, there is provided a wireless communication terminal comprising an antenna. The wireless communication terminal may include a model information acquisition unit that acquires model information of the wireless communication terminal. The wireless communication terminal may include a pattern acquisition unit that acquires the directivity pattern of the antenna corresponding to the model information. The wireless communication terminal may include a position acquisition unit that acquires the position of the wireless communication terminal. The wireless communication terminal may include an orientation acquisition unit that acquires the orientation of the wireless communication terminal. The wireless communication terminal may include a position information acquisition unit that acquires position information indicating the position of the communication partner of the wireless communication terminal. The wireless communication terminal may include a presentation unit that presents at least one of the recommended orientation and holding manner of the wireless communication terminal based on the position and orientation of the wireless communication terminal, the directivity pattern, and the position information. .

  Note that the above summary of the invention does not enumerate all the necessary features of the present invention. In addition, a subcombination of these feature groups can also be an invention.

An example of the wireless communication terminal 100 and the airframe 210 is schematically shown. 1 schematically shows an example of a communication environment of a wireless communication terminal 100. FIG. An example of the antenna gain of the antenna 102 of the radio | wireless communication terminal 100 is shown roughly. An example of a function structure of the wireless communication terminal 100 is shown roughly. An example of the directivity pattern of the antenna 102 of the wireless communication terminal 100 of a certain model is schematically shown. An example of the directivity pattern of the antenna 102 of the wireless communication terminal 100 of a certain model is schematically shown. An example of the directivity pattern of the antenna 102 of the wireless communication terminal 100 of a certain model is schematically shown. An example of holding data stored in the holding data storage unit 114 is schematically shown. An example of holding data stored in the holding data storage unit 114 is schematically shown. An example of a function structure of the management server 400 is shown roughly. An example of the hardware constitutions of the computer 900 which functions as a radio | wireless communication terminal 100 is shown roughly.

  Hereinafter, the present invention will be described through the embodiments of the invention, but the following embodiments do not limit the invention according to the claims. Moreover, not all combinations of features described in the embodiments are essential to the solution of the invention.

  FIG. 1 schematically illustrates an example of a wireless communication terminal 100 and an aircraft 210. The wireless communication terminal 100 is, for example, a mobile phone such as a smartphone. The wireless communication terminal 100 may be a tablet terminal, a notebook PC (Personal Computer), or the like.

  The flying object 210 is an example of a communication counterpart of the wireless communication terminal 100. The flying object 210 may be located in the upper air, and may transmit and receive various information to and from the wireless communication terminal 100. The airframe 210 may function as, for example, a so-called base station, relay station, relay radio station or the like.

  The airframe 210 provides a wireless communication service to the wireless communication terminal 100 by, for example, relaying communication between the wireless communication terminal 100 and the ground core network. The airframe 210 communicates with the terrestrial core network via, for example, a communication satellite. Also, the airframe 210 communicates with the core network via the on-ground gateways in the coverage area 212 among, for example, on-ground gateways located at various places on the ground.

  The antenna provided in the wireless communication terminal 100 has directivity different depending on the model of the wireless communication terminal 100. The directivity of the antenna may vary depending on the shape and structure of the antenna, the position of the antenna in the wireless communication terminal 100, the shape of the wireless communication terminal 100, and the like. The pattern of the directivity of the antenna may be described as a directivity pattern.

  When the wireless communication terminal 100 and the flying object 210 communicate, the direction and position of the positional relationship between the wireless communication terminal 100 and the flying object 210 and the directivity pattern of the antenna of the wireless communication terminal 100 correspond appropriately. It is desirable to As a result, the reception sensitivity of the radio wave emitted from the flying object 210 by the wireless communication terminal 100 can be improved, and the communication quality can be improved. In particular, the wireless communication terminal 100 located on the extension side of the cover area 212 has lower sensitivity to reception of radio waves emitted from the flying object 210 as compared with the wireless communication terminal 100 located on the center side of the cover area 212. The effect may be more pronounced.

  The directivity pattern of the wireless communication terminal 100 differs depending on the model, so the recommended orientation and holding manner differ depending on the model. The wireless communication terminal 100 according to the present embodiment includes the directivity pattern of the antenna corresponding to the model information of the wireless communication terminal 100, the position and orientation of the wireless communication terminal 100, and the positional relationship between the wireless communication terminal 100 and the flying object 210. And, at least one of the recommended orientation and holding manner of the wireless communication terminal 100 is presented to the user of the wireless communication terminal 100. Thereby, the user can present to the user at least one of the direction and the manner of holding the radio wave emitted from the flying object 210 in accordance with the model of the radio communication terminal 100 and the situation at that time. it can.

  FIG. 2 schematically shows an example of a communication environment of the wireless communication terminal 100. As shown in FIG. The antenna 102 included in the wireless communication terminal 100 is, for example, an antenna incorporated in the wireless communication terminal 100. The antenna 102 may be an antenna exposed to the outside of the wireless communication terminal 100. The antenna 102 is, for example, a nondirectional antenna. The antenna 102 may be a directional antenna. The antenna 102 may be a single antenna or multiple antennas.

  The wireless communication terminal 100 wirelessly communicates with the flying object 210 using the antenna 102. Also, the wireless communication terminal 100 may perform wireless communication with the wireless base station 220 using the antenna 102. The wireless base station 220 may also be an example of a communication counterpart of the wireless communication terminal 100.

  The wireless communication terminal 100 may use any communication standard. For example, the wireless communication terminal 100 may use 2G (2nd Generation) communication standard such as GSM (Global System for Mobile communications) and PDC (Personal Digital Cellular), WCDMA (Wideband Code Division Multiple Access), 3G (3rd Generation) communication standard such as CDMA2000 (Code Division Multiple Access 2000), 3.9G communication standard such as LTE (Long Term Evolution), 4G communication standard such as Advanced LTE, and communication standard 4G communication standard or later Radio and the radio base station 220 To trust.

  The wireless communication terminal 100 may use any communication scheme. As a communication method used by the wireless communication terminal 100, a communication method in which communication is performed by a single antenna and a communication method in which communication is performed by a multi antenna can be exemplified. As a communication system which communicates by multi antenna, a communication system which changes and uses a plurality of antennas, and a communication system which uses a plurality of antennas simultaneously can be illustrated.

  The wireless communication terminal 100 accesses the network 10 via the airframe 210 or the wireless base station 220. The network 10 includes, for example, a telephone network and the Internet. The network 10 may include a core network.

  The wireless communication terminal 100 may communicate with the management server 400 connected to the network 10. For example, the wireless communication terminal 100 receives, from the management server 400, a presentation application that executes a process of presenting at least one of the orientation and holding manner of the recommended wireless communication terminal 100. The presentation application may be an example of a program.

  The wireless communication terminal 100 may transmit model information to the management server 400 and receive a directivity pattern corresponding to the model information from the management server 400. Further, the wireless communication terminal 100 may receive, from the management server 400, holding data indicating how to hold the wireless communication terminal 100.

  The wireless communication terminal 100 may transmit, to the management server 400, reception status data indicating the reception status of radio waves from the aircraft 210 at a plurality of locations. For example, the wireless communication terminal 100 receives, for each of a plurality of places, reception status data including position information of the places, the reception strength of radio waves from the flying object 210 measured at the places, and the direction of the wireless communication terminal 100. Is sent to the management server 400. The reception status data may further include model information of the wireless communication terminal 100. Further, the reception status data may further include how to hold the wireless communication terminal 100 by the user 300 when the wireless communication terminal 100 measures the reception strength. Also, the reception status data may further include the relative positional relationship between the wireless communication terminal 100 and the airframe 210.

  The management server 400 may perform learning using the reception status data received from the wireless communication terminal 100. For example, in the management server 400, at least one of the direction and the holding manner in which the reception sensitivity of the radio wave from the flying object 210 of the wireless communication terminal 100 at a plurality of locations becomes highest for each model of the wireless communication terminal 100 by machine learning. Derive Further, for example, the management server 400 may use machine learning to determine the relative position relationship between the wireless communication terminal 100 and the flying object 210 from the flying object 210 of the wireless communication terminal 100 for each model of the wireless communication terminal 100. At least one of the direction and the holding direction in which the reception strength of the radio wave is the highest is derived. The management server 400 holds the result of learning. The management server 400 may reflect the result of learning on the presentation application. Thus, the communication quality between the wireless communication terminal 100 and the flying object 210, which is realized by the recommended orientation and holding manner of the wireless communication terminal 100 presented by the presentation application, can be improved.

  FIG. 3 schematically shows an example of the antenna gain of the antenna 102 of the wireless communication terminal 100. As shown in FIG. The antenna gain 32 and the antenna gain 34 show an example of the antenna gain when the user 300 of the wireless communication terminal 100 rotates 360 degrees while putting the wireless communication terminal 100 on the ear.

  The antenna gain 32 represents the antenna gain for the wireless communication terminal 100 of the first type, and the antenna gain 34 represents the antenna gain for the wireless communication terminal 100 of the second type different from the first type. Here, the antenna gain measured when the aircraft 210 is positioned in the 45 ° direction is illustrated. As shown in FIG. 3, the antenna gain differs depending on the model of the wireless communication terminal 100.

  FIG. 4 schematically illustrates an example of a functional configuration of the wireless communication terminal 100. The wireless communication terminal 100 includes an antenna 102, a display 104, a speaker 105, a microphone 106, a vibrator 107, a light emitting unit 108, a pattern storage unit 112, a holding data storage unit 114, a position information storage unit 116, a position information receiving unit 117, a position Detection unit 118, direction detection unit 120, wireless communication unit 122, reception level acquisition unit 124, transmission level acquisition unit 126, reception level measurement unit 128, model information acquisition unit 132, pattern acquisition unit 134, model information transmission unit 136, position The information acquiring unit 142, the position acquiring unit 144, the direction acquiring unit 146, the direction deriving unit 148, the presenting unit 150, the application specifying unit 162, the profile acquiring unit 164, the earphone determining unit 166, and the communication scheme acquiring unit 168. It is not necessary for the wireless communication terminal 100 to have all these configurations.

  Position information reception unit 117, model information acquisition unit 132, pattern acquisition unit 134, model information transmission unit 136, position information acquisition unit 142, position acquisition unit 144, direction derivation unit 148, presentation unit 150, application identification unit 162, profile acquisition The unit 164, the earphone determination unit 166, and the communication scheme acquisition unit 168 may be implemented in the wireless communication terminal 100 by installing the presentation application in the wireless communication terminal 100. The configuration implemented by the presentation application may be a part, not all of these.

  The pattern storage unit 112 stores the directivity pattern of the antenna 102. The pattern storage unit 112 may store a plurality of directivity patterns corresponding to a plurality of pieces of model information. The pattern storage unit 112 may store the directivity pattern in the uplink and the directivity pattern in the downlink for each of the plurality of pieces of model information.

  The pattern storage unit 112 may also store directivity patterns for each communication method of the wireless communication terminal 100. For example, the pattern storage unit 112 stores a directivity pattern corresponding to a communication method in which communication is performed by a single antenna, and a directivity pattern corresponding to a communication method in which communication is performed by a multi-antenna. The pattern storage unit 112 may store a directivity pattern corresponding to a communication method in which a plurality of antennas are switched and used, and a directivity pattern corresponding to a communication method in which a plurality of antennas are simultaneously used.

  The pattern storage unit 112 may store directivity patterns corresponding to a plurality of communication methods for each of a plurality of pieces of model information. For example, the pattern storage unit 112 supports, for the model information of the wireless communication terminal 100 having multiple antennas, a directivity pattern corresponding to a communication scheme that switches and uses a plurality of antennas and a communication scheme using a plurality of antennas simultaneously Store the directivity pattern.

  For example, when the wireless communication terminal 100 installs a presentation application, the pattern storage unit 112 stores a plurality of directivity patterns included in the presentation application. Also, for example, when the wireless communication terminal 100 installs a presentation application, the pattern storage unit 112 may store a plurality of directivity patterns received from the management server 400 together with the presentation application. In addition, even if the pattern storage unit 112 transmits model information to the management server 400 by the model information transmission unit 136 described later, and stores the directivity pattern corresponding to the model information received from the management server 400. Good.

  There may be multiple types of directivity patterns. For example, the directivity pattern includes a directivity pattern in a state where the wireless communication terminal 100 is not held, a directivity pattern in a state held by the right hand, and a directivity pattern in a state held by the left hand. Also, the directivity pattern includes, for example, a directivity pattern for each holding manner by the right hand and a directivity pattern for each holding manner by the left hand. The difference in the way of holding is the difference in the holding position and the shape of the holding hand. As a position to have, the upper side of the wireless communication terminal 100, the center of the wireless communication terminal 100, the lower side of the wireless communication terminal 100, etc. can be illustrated. The shape of the hand to be held includes a shape that is held by the entire hand and a shape that is held by any combination of five fingers, etc., such as a shape pinched by the thumb and forefinger, a form pinched by the thumb, forefinger and middle finger, , A thumb, a forefinger, a middle finger, a ring finger, and the like. Also, for example, the directivity pattern includes the directivity pattern when placing the wireless communication terminal 100 at the ear and making a phone call, and the directivity pattern when viewing the display 104.

  The pattern storage unit 112 may store multiple pieces of antenna configuration information corresponding to multiple pieces of model information. The antenna configuration information may include the number of antennas, the shape of the antennas, the transmission method, and the like. For example, the antenna configuration information includes one antenna transmission and diversity transmission.

  The holding method data storage unit 114 stores holding method data indicating the holding method of the wireless communication terminal 100. The holding method data may be still image data, moving image data, audio data, text data, etc. indicating how the wireless communication terminal 100 is held.

  The holding data storage unit 114 may store a plurality of holding data. For example, the holding method data storage unit 114 stores a plurality of holding method data included in the presentation application when the wireless communication terminal 100 installs the presentation application. Further, for example, the holding data storage unit 114 may store a plurality of holding data received from the management server 400 together with the presentation application when the wireless communication terminal 100 installs the presentation application.

  The position information storage unit 116 stores position information indicating the position of the communication partner of the wireless communication terminal 100. For example, in the case of a communication partner whose position does not change, such as a base station installed on the ground and a geostationary communication satellite, the position information may indicate the absolute position of the communication partner. For example, in the case of a communication partner whose position changes, such as a balloon, an unmanned aerial vehicle, a mobile communication satellite, and a stratosphere platform, the position information may indicate the movement range of the communication partner and the center of the movement range. For example, when the communication partner flies within a determined range, the movement range of the communication partner indicates the determined range. Also, for example, when the communication partner flies a determined route, the movement range of the communication partner indicates the route. In the case where the communication partner can specify the position of the communication partner at each time, for example, when moving along a predetermined route according to a predetermined schedule, the position information storage unit 116 identifies each of the communication partners. Position information indicating a position at time may be stored.

  The position information may be stored in the position information storage unit 116 when the wireless communication terminal 100 is manufactured. Also, the position information may be stored in the position information storage unit 116 when the presentation application is installed in the wireless communication terminal 100.

  The position information receiving unit 117 receives position information from the outside. The position information receiving unit 117 receives position information of the communication partner periodically or irregularly from the communication partner, for example. Further, the position information receiving unit 117 receives position information of the communication partner periodically or irregularly from a device that manages the position of the communication partner, for example. The position information storage unit 116 may store the position information received by the position information receiving unit 117.

  The position detection unit 118 detects the position of the wireless communication terminal 100. The position detection unit 118 may detect the position of the wireless communication terminal 100 using any satellite positioning system. For example, the position detection unit 118 detects the position of the wireless communication terminal 100 using a global positioning navigation satellite system (GNSS) such as GPS (Global Positioning System) and a satellite positioning system such as a quasi-zenith satellite system. The position detection unit 118 may detect the position based on the position data input through the user interface of the wireless communication terminal 100. The position data is, for example, data capable of specifying a position such as an address, latitude longitude data, and the like. The user interface provided in the wireless communication terminal 100 may be a touch input interface, a key input interface, a button input interface, or the like.

  The orientation detection unit 120 detects the orientation of the wireless communication terminal 100. The wireless communication terminal 100 may detect the orientation of the wireless communication terminal 100 using at least one of an acceleration sensor, a gyro sensor, and a geomagnetic sensor.

  The wireless communication unit 122 wirelessly communicates with the flying object 210. The wireless communication unit 122 may execute voice communication and data communication via the flying object 210. Further, the wireless communication unit 122 wirelessly communicates with the wireless base station 220. The wireless communication unit 122 may execute voice communication and data communication via the wireless base station 220.

  The wireless communication unit 122 includes a reception level acquisition unit 124 and a transmission level acquisition unit 126. The reception level acquisition unit 124 acquires a reception level when the aircraft 210 receives a radio wave from the wireless communication terminal 100. The reception level acquisition unit 124 may receive the reception level of the radio wave received by the aircraft 210 from the wireless communication terminal 100 from the aircraft 210. The transmission level acquisition unit 126 acquires the transmission level of the radio wave from the wireless communication terminal 100.

  The reception level measurement unit 128 measures the reception level of the radio wave from the flying object 210. The wireless communication unit 122 may transmit reception status data including the reception level measured by the reception level measurement unit 128 to the management server 400. The reception status data may include the position and orientation of the wireless communication terminal 100 when the reception level is measured. The reception status data may include model information of the wireless communication terminal 100.

  The model information acquisition unit 132 acquires model information of the wireless communication terminal 100. The device type information acquisition unit 132 acquires device type information by, for example, reading out device type information stored in a storage unit of the wireless communication terminal 100.

  The pattern acquisition unit 134 acquires the directivity pattern corresponding to the model information of the wireless communication terminal 100. For example, the pattern acquisition unit 134 reads, from the pattern storage unit 112, the directivity pattern corresponding to the model information acquired by the model information acquisition unit 132.

  The device type information transmission unit 136 transmits the device type information acquired by the device type information acquisition unit 132. The model information transmission unit 136 may transmit the model information to the management server 400. The pattern acquisition unit 134 receives the directivity pattern corresponding to the model information transmitted from the management server 400 in response to the model information transmission unit 136 transmitting the model information to the management server 400, thereby obtaining the directivity pattern. You may get

  The position information acquisition unit 142 acquires position information. The position information acquisition unit 142 may read out the position information stored in the position information storage unit 116. Further, the position information acquisition unit 142 may receive position information of the communication partner from the outside at the timing of presenting at least one of the orientation and holding manner of the wireless communication terminal 100 recommended by the presentation unit 150 described later. For example, the position information acquisition unit 142 receives position information of the communication partner from the communication partner or a device that manages the position of the communication partner.

  The position acquisition unit 144 acquires the position of the wireless communication terminal 100. The position acquisition unit 144 may acquire the position detected by the position detection unit 118.

  The orientation acquisition unit 146 acquires the orientation of the wireless communication terminal 100. The orientation acquisition unit 146 may acquire the orientation detected by the orientation detection unit 120.

  Direction deriving unit 148 is a flying object 210 based on the position of wireless communication terminal 100 based on the position of wireless communication terminal 100 acquired by position acquiring unit 144 and the identification information acquired by position information acquiring unit 142. Derive the direction in which the

  The presentation unit 150 presents at least one of the recommended orientation and holding manner of the wireless communication terminal 100. In the presentation unit 150, the position of the wireless communication terminal 100 acquired by the position acquisition unit 144, the orientation of the wireless communication terminal 100 acquired by the orientation acquisition unit 146, the position information acquired by the position information acquisition unit 142, and the pattern acquisition unit 134 Based on the acquired directivity pattern, at least one of the orientation and the holding manner of the recommended wireless communication terminal 100 may be presented.

  The presentation unit 150 determines the direction in which the flying object 210 is located based on the position of the wireless communication terminal 100 derived by the direction derivation unit 148, the orientation of the wireless communication terminal 100 acquired by the orientation acquisition unit 146, and the pattern acquisition unit Based on the directivity pattern acquired by 134, at least one of the orientation and holding manner of the wireless communication terminal 100 may be presented in which the reception level of radio waves from the flying object 210 becomes higher. In this case, the pattern acquisition unit 134 may acquire the directivity pattern in the uplink. The presentation unit 150 presents, for example, at least one of the orientation and the manner of holding the wireless communication terminal 100 such that the reception level of the radio wave from the flying object 210 is maximized.

  The presentation unit 150 determines the direction in which the flying object 210 is located based on the position of the wireless communication terminal 100 derived by the direction derivation unit 148, the orientation of the wireless communication terminal 100 acquired by the orientation acquisition unit 146, and the pattern acquisition unit A wireless communication terminal in which the reception level of the flying object 210 of radio waves from the wireless communication terminal 100 is higher based on both the directivity pattern of reception by the antenna 102 and the directivity pattern of transmission by the antenna 102 acquired by 134. The orientation and / or the manner of holding 100 may be presented. In this case, the pattern acquisition unit 134 may acquire the directivity pattern in the downlink. The presentation unit 150 presents, for example, at least one of the orientation and holding manner of the wireless communication terminal 100 such that the reception level of the radio wave from the wireless communication terminal 100 is maximized.

  The presentation unit 150 determines the direction in which the flying object 210 is located based on the position of the wireless communication terminal 100 derived by the direction derivation unit 148, the orientation of the wireless communication terminal 100 acquired by the orientation acquisition unit 146, and the pattern acquisition unit Based on both of the directivity pattern of reception by the antenna 102 and the directivity pattern of transmission by the antenna 102 acquired by 134, the reception level of the radio wave from the flying object 210 becomes higher, and from the radio communication terminal 100 The radio communication terminal 100 may present the orientation and / or the manner of holding the radio communication terminal 100 at which the reception level of the radio wave flying object 210 becomes higher. In this case, the pattern acquisition unit 134 may acquire a directivity pattern without distinction between uplink and downlink, or may acquire a directivity pattern in uplink and a directivity pattern in downlink. Good. The presentation unit 150 is, for example, the direction and position of the wireless communication terminal 100 such that the reception level of radio waves from the flying object 210 is maximized and the reception level of the radio waves from the wireless communication terminal 100 is maximized. Present at least one of the

  The presentation unit 150 may present at least one of the recommended orientation and holding manner of the wireless communication terminal 100 through at least one of the display 104 and the speaker 105. The presentation unit 150 may present the recommended manner of holding the wireless communication terminal 100 by causing the holding data stored in the holding data storage unit 114 to be output to at least one of the display 104 and the speaker 105.

  The presentation unit 150 may present the recommended orientation of the wireless communication terminal 100 by causing the displacement amount from the current orientation of the wireless communication terminal 100 to be output to at least one of the display 104 and the speaker 105. For example, the presentation unit 150 causes the display 104 and / or the speaker 105 to output an inclination direction and an inclination angle, such as inclining outward by 10 degrees, according to at least one of text, still images, moving images, and audio.

  Also, the presentation unit 150 may present the orientation of the recommended wireless communication terminal 100 by outputting the absolute orientation of the recommended wireless communication terminal 100 to at least one of the display 104 and the speaker 105. For example, the presentation unit 150 sets the absolute orientation such as 10 degrees in the clockwise direction from the direction perpendicular to the ground and 20 degrees outward by at least one of text, still images, moving images, and audio. , And / or the display 105 and / or the speaker 105.

  The presentation unit 150 may present at least one of the recommended orientation and holding manner of the wireless communication terminal 100 in response to a request from the user 300 or the like via the user interface of the wireless communication terminal 100.

  The presentation unit 150 may warn when the reception level of the radio wave from the flying object 210 is lowered while the wireless communication unit 122 is in wireless communication with the flying object 210. The presentation unit 150 warns by vibrating the vibrator 107, for example. The presentation unit 150 may vibrate the vibrator 107 in accordance with a predetermined vibration pattern. Further, the presentation unit 150 warns by, for example, causing the light emitting unit 108 to emit light. The presentation unit 150 may cause the light emitting unit 108 to emit light in accordance with a predetermined light emission pattern. The predetermined light emission pattern may include at least one of a blinking pattern, a color development pattern, and a light emission intensity pattern. The light emitting unit 108 may be an LED, a camera flash, or the like included in the wireless communication terminal 100. The predetermined light emission pattern may include at least one of a blinking pattern and a light emission intensity pattern.

  In addition, when the reception level of the radio wave from the flying object 210 is lowered while the wireless communication unit 122 is in wireless communication with the flying object 210, the presenting unit 150 at least has the orientation and the holding manner of the wireless communication terminal 100. You may be warned to change either. The presentation unit 150 may warn that the position of the wireless communication terminal 100 is to be changed. The presentation unit 150 may cause the display 104 and / or the speaker 105 to output a warning. For example, when the reception level of the radio wave from the flying object 210 decreases, the presentation unit 150 outputs a voice message prompting to change at least one of the position, the orientation, and the holding manner of the wireless communication terminal 100. When the reception level of the radio wave from the flying object 210 is lowered while the wireless communication unit 122 is in wireless communication with the flying object 210, for example, the shielding object such as a car moves and the like of the wireless communication terminal 100. The cause may be the change in radio wave reception conditions. In that case, there are cases where it is possible to improve the radio wave reception condition by moving the wireless communication terminal 100 a little or changing the direction and holding manner.

  The presentation unit 150 may present the position of the recommended wireless communication terminal 100 in addition to at least one of the recommended orientation and holding manner of the wireless communication terminal 100. For example, referring to map data including data of a building, presentation unit 150 refers to map data, and a high-rise building or the like in the direction in which aircraft 210 is located based on the position of wireless communication terminal 100 derived by direction derivation unit 148. When there is a shield, the position where the shield does not exist between the wireless communication terminal 100 and the airframe 210 is presented as a position of the wireless communication terminal 100 to be recommended.

  The presentation unit 150 may present the direction in which the flying object 210 is located based on the position of the wireless communication terminal 100 derived by the direction derivation unit 148. The presentation unit 150 may cause the display 104 to display text or an image of the direction, or may cause the speaker 105 to output an audio.

  Also, the presentation unit 150 may present the reception level measured by the reception level measurement unit 128. The presentation unit 150 may output the reception level to at least one of the display 104 and the speaker 105. The presentation unit 150, for example, causes the display 104 and / or the speaker 105 to output the numerically expressed reception level. Also, the presentation unit 150 may cause the speaker 105 to output a sound according to the height of the reception level. For example, the presentation unit 150 controls the speaker 105 so that the output interval of the sound becomes longer as the reception level becomes higher, and the output of the sound is stopped when the reception level exceeds a predetermined threshold. Also, the presentation unit 150 may output light corresponding to the height of the reception level from at least one of the light emitting units 108. In addition, the presentation unit 150 may cause the vibrator 107 to generate a vibration according to the height of the reception level.

  The application identification unit 162 identifies an application executed by the wireless communication terminal 100. The presentation unit 150 may present, on the basis of the application identified by the application identification unit 162, at least one of the recommended orientation and holding manner of the wireless communication terminal 100. For example, the presentation unit 150 determines how to hold the wireless communication terminal 100 by the user 300 based on the application identified by the application identification unit 162.

  As a specific example, in the case of an application such as a telephone application where there is a high possibility of placing the wireless communication terminal 100 close to the ear, it is judged that the wireless communication terminal 100 is placed close to the ear. In the case of an application that is likely to face and display the display 104, such as an application and a game application, it is determined that the display 104 is held facing. The presentation unit 150 may present the orientation or the like of the wireless communication terminal 100 in which the reception sensitivity of the radio wave from the flying object 210 is improved as it is in the specified manner of holding. This makes it possible to present an orientation that can improve the reception sensitivity while continuing to use the application. In addition, for example, it is possible to prevent the user 300 from presenting an orientation or a holding manner in which the user can not browse the display 104 in spite of wanting to continue browsing the display 104.

  Also, as an example, in the case of an application that is used without browsing the display 104 like a phone application, it is determined that the center of the wireless communication terminal 100 is gripped, such as a web browser, a mail application and a game application In the case of an application that is likely to face the display 104 and be viewed, it is determined that the lower side of the wireless communication terminal 100 is gripped. The presentation unit 150 may present at least one of the recommended orientation and holding manner of the wireless communication terminal 100 according to the position where the wireless communication terminal 100 is thus held. For example, in the case of the former, the presentation unit 150, for example, recommends the direction and holding of the recommended wireless communication terminal 100 based on the directivity pattern when the position having the wireless communication terminal 100 is at the center of the wireless communication terminal 100. Present at least one. Also, for example, in the latter case, the presentation unit 150 recommends the direction and holding method of the recommended wireless communication terminal 100 based on the directivity pattern when the position having the wireless communication terminal 100 is on the lower side of the wireless communication terminal 100. Present at least one of

  The profile acquisition unit 164 acquires the user profile of the user 300. The user profile includes at least one of the gender and the age of the user 300. The user profile may include both the gender and the age of the user 300, and may include others. For example, the user profile includes the handedness of the user 300.

  The presentation unit 150 may present at least one of the recommended orientation and holding manner of the wireless communication terminal 100 based on the user profile acquired by the profile acquisition unit 164. For example, the presentation unit 150 may estimate how to grip the wireless communication terminal 100 based on the user profile acquired by the profile acquisition unit 164.

  Specifically, how to grip the wireless communication terminal 100 is inferred from the difference in hand size depending on the age and gender. Then, the presentation unit 150 may present the recommended manner of holding the wireless communication terminal 100 in consideration of the manner of gripping. For example, the presentation unit 150 may use adult male holding data for adult males, adult female holding data for adult females, and child holding data for children. Is used to indicate how to hold the recommended wireless communication terminal 100. This makes it possible, for example, to prevent the child from being recommended to the child of the holding method that the child can not hold, and recommended to the adult to hold the unsuitable holding method for the adult.

  Further, how to grip the wireless communication terminal 100 may be estimated from the dominant hand of the user 300. For example, if the dominant hand of the user 300 is the right hand, it is assumed that the wireless communication terminal 100 is held by the right hand, and if the dominant hand of the user 300 is the left hand, it is estimated that the wireless communication terminal 100 is held by the left hand. Do. When it is estimated that the presentation unit 150 is gripping with the right hand, the presentation unit 150 presents at least one of the orientation and the holding manner of the recommended wireless communication terminal 100 based on the directivity pattern of the state of gripping with the right hand. Good. In addition, when it is estimated that the presentation unit 150 is gripping with the left hand, the presentation unit 150 presents at least one of the recommended orientation and holding manner of the wireless communication terminal 100 based on the directivity pattern in the state of gripping with the left hand. You may

  The earphone determining unit 166 determines whether an earphone is connected to the wireless communication terminal 100. The earphone determining unit 166 may determine, for example, whether or not the earphone is connected by confirming whether or not the earphone is inserted in the earphone jack. Further, the earphone determining unit 166 may determine, for example, whether or not the earphone is connected by determining whether or not the wireless communication connection with the wireless earphone is established. The earphone determination unit 166 may also determine whether the connected earphone is a microphone-equipped earphone.

  The presentation unit 150 may present at least one of the recommended orientation and holding manner of the wireless communication terminal 100 further based on whether or not the earphone determined by the earphone determination unit 166 is connected. For example, when the earphone with the microphone is connected and the user 300 is on the phone, the presentation unit 150 recommends the direction of the wireless communication terminal 100 to be recommended as the wireless communication terminal 100 may be separated from the user 300 and Present how to hold. For example, the presentation unit 150 presents how to hold the hand holding the wireless communication terminal 100 in the direction of the flying object 210. In this way, it is possible to present a way to further improve the reception sensitivity in a situation where it is not necessary to place the wireless communication terminal 100 at the ear of the user 300 or at a position where the display 104 can be viewed.

  The communication scheme acquisition unit 168 acquires the communication scheme of the wireless communication terminal 100. The communication method acquisition unit 168 acquires the communication method by reading out the communication method stored in the storage unit of the wireless communication terminal 100, for example.

  The presentation unit 150 may present at least one of the recommended orientation and holding manner of the wireless communication terminal 100 based on the communication scheme acquired by the communication scheme acquisition unit 168. For example, when the wireless communication terminal 100 communicates with a single antenna, the presentation unit 150 selects, based on a directivity pattern corresponding to a communication scheme in which communication is performed with a single antenna, at least one of the orientation and holding manner of the recommended wireless communication terminal 100. To present.

  Also, for example, when the wireless communication terminal 100 communicates with a multi-antenna, the presentation unit 150 recommends the orientation and holding manner of the recommended wireless communication terminal 100 based on a directivity pattern corresponding to a communication scheme for communicating with the multi-antenna. Present at least one. The presentation unit 150 is a directivity pattern corresponding to a communication scheme in which a plurality of antennas are switched and used when the wireless communication terminal 100 communicates using a multi-antenna and uses a communication scheme in which a plurality of antennas are switched and used. Based on the above, the orientation and / or the manner of holding the recommended wireless communication terminal 100 may be presented. In addition, in the case where the presentation unit 150 uses a communication scheme in which the wireless communication terminal 100 communicates with multiple antennas and simultaneously uses a plurality of antennas, a directivity pattern corresponding to the communication scheme in which a plurality of antennas are simultaneously used Based on the above, the orientation and / or the manner of holding the recommended wireless communication terminal 100 may be presented.

  5, 6 and 7 schematically show examples of directivity patterns of the antenna 102 of the wireless communication terminal 100 of a certain type. The directivity pattern 172 indicates the directivity pattern of the antenna 102 when the wireless communication terminal 100 is not held by the user 300, that is, there is no influence of the human body. The directivity pattern 174 indicates the directivity pattern of the antenna 102 when the user 300 holds the wireless communication terminal 100 with the right hand. The directivity pattern 176 indicates the directivity pattern of the antenna 102 when the user 300 holds the wireless communication terminal 100 with the left hand.

  If the wireless communication terminal 100 is not held by the user 300, the presentation unit 150 recommends the wireless communication terminal 100 to recommend based on the directivity pattern 172, the position and orientation of the wireless communication terminal 100, and the identification information. Present at least one of orientation and holding. In addition, when the user 300 holds the wireless communication terminal 100 with the right hand, the presentation unit 150 recommends the wireless based on the directivity pattern 174, the position and orientation of the wireless communication terminal 100, and the identification information. At least one of the orientation and holding manner of the communication terminal 100 is presented. In addition, when the user 300 holds the wireless communication terminal 100 with the left hand, the presentation unit 150 recommends the wireless based on the directivity pattern 176, the position and orientation of the wireless communication terminal 100, and the identification information. At least one of the orientation and holding manner of the communication terminal 100 is presented.

  Whether or not the user 300 holds the wireless communication terminal 100 and whether it is held by the right hand or the left hand when held may be determined by a contact sensor, a pressure sensor or the like. For example, the wireless communication terminal 100 may be held by the right hand, by the left hand, or by the output of the contact sensor or pressure sensor disposed on the side of the wireless communication terminal 100. To determine if The wireless communication terminal 100 may use another method as long as it can determine these. For example, by analyzing the output value of at least one of the acceleration sensor, the gyro sensor, and the geomagnetic sensor, the wireless communication terminal 100 holds whether the wireless communication terminal 100 is held by the right hand or held by the left hand, and Determine if it has been.

  FIGS. 8 and 9 schematically show examples of holding data stored in the holding data storage unit 114. FIG. 8 shows holding data 182 for a model having the antenna 102 at the bottom of the case. The holding method data 182 shown in FIG. 8 is image data showing how to hold the upper part of the case separated from the antenna 102 at the lower part of the case and the hand holding the wireless communication terminal 100 does not cover the antenna 102 It is.

  FIG. 9 shows holding data 184 for a model having the antenna 102 at the top of the housing. The holding data data 184 shown in FIG. 9 is image data showing how to hold the lower part of the case separated from the antenna 102 at the upper part of the case and the hand holding the wireless communication terminal 100 does not cover the antenna 102 It is.

  As illustrated in FIGS. 8 and 9, the holding data storage unit 114 holds holding data indicating that the housing of the wireless communication terminal 100 holds a position further away from the position where the antenna 102 is disposed. May be stored. In addition, the holding method data storage unit 114 may store holding method data indicating a holding method such that the hand holding the wireless communication terminal 100 does not cover the antenna 102.

  FIG. 10 schematically illustrates an example of a functional configuration of the management server 400. The management server 400 includes an information storage unit 402, an application transmission unit 404, a reception status data reception unit 406, a model information reception unit 408, a pattern transmission unit 410, a holding data transmission unit 412, a machine learning unit 414, and a terminal position information reception unit. A terminal direction information reception unit 418, a relay station position information reception unit 420, and a recommendation information transmission unit 422 are provided. In addition, it is not necessary that the management server 400 has all these configurations.

  The information storage unit 402 stores various types of information. The information storage unit 402 stores, for example, a presentation application. In addition, the information storage unit 402 may store a plurality of directivity patterns corresponding to a plurality of pieces of type information. In addition, the information storage unit 402 may store a plurality of holding data.

  The application transmission unit 404 transmits the presentation application stored in the information storage unit 402. The application transmission unit 404 may transmit the presentation application in response to a request from the wireless communication terminal 100. The application transmission unit 404 may transmit the presentation application to the application providing site or the like.

  The reception status data reception unit 406 receives reception status data from the wireless communication terminal 100. The reception status data reception unit 406 may store the reception status data in the information storage unit 402.

  The model information receiving unit 408 receives model information from the wireless communication terminal 100.

  The pattern transmission unit 410 transmits the directivity pattern stored in the information storage unit 402. The pattern transmission unit 410 transmits, for example, one or more directivity patterns corresponding to the model information received by the model information reception unit 408 to the wireless communication terminal 100.

  The holding data transmission unit 412 transmits holding data stored in the information storage unit 402. The holding data transmission unit 412 transmits, to the wireless communication terminal 100, one or more holding data corresponding to the model information received by the model information reception unit 408, for example.

  The machine learning unit 414 executes machine learning. The machine learning unit 414 may execute machine learning using the reception situation data stored in the information storage unit 402. For example, the machine learning unit 414 uses machine learning to at least one of the direction and the holding direction in which the reception sensitivity of the radio wave from the flying object 210 of the wireless communication terminal 100 at a plurality of locations becomes highest. Derive the Also, for example, the machine learning unit 414 may use machine learning from the flying object 210 of the wireless communication terminal 100 for each model of the wireless communication terminal 100 for each relative positional relationship between the wireless communication terminal 100 and the flying object 210. Derives at least one of the direction in which the received signal strength of the radio wave is the highest and the manner in which the signal is held. The machine learning unit 414 may store the learning result in the information storage unit 402. The machine learning unit 414 may reflect the result of learning on the presentation application stored in the information storage unit 402.

  The terminal position information receiving unit 416 receives terminal position information indicating the position of the wireless communication terminal 100. The terminal position information receiving unit 416 may receive terminal position information from the wireless communication terminal 100.

  The terminal direction information receiving unit 418 receives terminal direction information indicating the direction of the wireless communication terminal 100. The terminal direction information receiving unit 418 may receive terminal direction information from the wireless communication terminal 100.

  The relay station position information receiving unit 420 receives relay station position information indicating the position of a relay station that relays communication of the wireless communication terminal 100. The relay station position information receiving unit 420 may receive relay station position information from the wireless communication terminal 100. The relay station position information receiving unit 420 is an example of a communication partner position information receiving unit that receives position information of the communication partner of the wireless communication terminal 100.

  The recommended information transmission unit 422 includes the terminal position information received by the terminal position information reception unit 416, the terminal orientation information received by the terminal orientation information reception unit 418, the relay station position information received by the relay station position information reception unit 420, and the model. Based on the directivity pattern corresponding to the model information received by the information receiving unit 408, recommendation information indicating at least one of the orientation and holding manner of the recommended wireless communication terminal 100 is transmitted to the wireless communication terminal 100. The wireless communication terminal 100 may present, to the user 300, at least one of the orientation and holding manner of the recommended wireless communication terminal 100 using the recommendation information received from the recommendation information transmission unit 422.

  FIG. 11 shows an example of a hardware configuration of a computer 900 functioning as the wireless communication terminal 100. The computer 900 according to the present embodiment includes a SoC 910, a main memory 922, a flash memory 924, an antenna 102, an antenna 103, a display 104, a speaker 105, a microphone 106, a vibrator 107, a light emitting unit 108, a USB port 952, and a card slot 954. Prepare.

  The SoC 910 operates based on a program such as a presentation application stored in the main memory 922 and the flash memory 924 to control each part. The antenna 102 is a so-called cellular antenna. The antenna 103 is a so-called WiFi (registered trademark) antenna. The SoC 910 may implement various communication functions using the antenna 102 and the antenna 103. The SoC 910 may receive the program used by the SoC 910 using the antenna 102 or the antenna 103, for example, and store the received program in the flash memory 924.

  The SoC 910 may implement various display functions using the display 104. The SoC 910 may implement various audio output functions using the speaker 105. The SoC 910 may implement various voice input functions using the microphone 106. The SoC 910 may implement various vibration functions using the vibrator 107. The SoC 910 may realize various light emitting functions using the light emitting unit 108.

  The USB port 952 implements USB connection. The card slot 954 implements connection with various cards such as an SD card. The SoC 910 may receive a program used by the SoC 910 from a device or memory connected to the USB port 952 and a card connected to the card slot 954 and store the program in the flash memory 924.

  A program installed in the computer 900 and causing the computer 900 to function as the wireless communication terminal 100 may operate on the SoC 910 or the like to cause the computer 900 to function as each unit of the wireless communication terminal 100. The information processing described in these programs is read by the computer 900, and the position information receiving unit 117, which is a specific means in which the software and the various hardware resources described above cooperated, and the model information acquisition unit 132, pattern acquisition unit 134, model information transmission unit 136, position information acquisition unit 142, position acquisition unit 144, orientation acquisition unit 146, direction derivation unit 148, presentation unit 150, application identification unit 162, profile acquisition unit 164, earphone determination It functions as the unit 166 and the communication scheme acquisition unit 168. Then, by realizing calculation or processing of information according to the purpose of use of the computer 900 in this embodiment by these specific means, a unique wireless communication terminal 100 according to the purpose of use is constructed.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It is apparent to those skilled in the art that various changes or modifications can be added to the above embodiment. It is also apparent from the scope of the claims that the embodiments added with such alterations or improvements can be included in the technical scope of the present invention.

  The order of execution of each process such as operations, procedures, steps and steps in the devices, systems, programs and methods shown in the claims, the specification and the drawings is as follows. It is to be noted that “it can be realized in an arbitrary order unless it is explicitly stated as“ etc. ”and the output of the previous process is not used in the later process. With regard to the flow of operations in the claims, the specification and the drawings, even if it is described using “first,” “next,” etc. for the sake of convenience, it means that it is essential to carry out in this order. It is not a thing.

Reference Signs List 10 network, 32 antenna gain, 34 antenna gain, 100 wireless communication terminal, 102 antenna, 103 antenna, 104 display, 105 speaker, 106 microphone, 107 vibrator, 108 light emitting unit, 112 pattern storage unit, 114 holding data storage unit, 116 position information storage unit, 117 position information receiving unit, 118 position detection unit, 120 direction detection unit, 122 wireless communication unit, 124 reception level acquisition unit, 126 transmission level acquisition unit, 128 reception level measurement unit, 132 model information acquisition unit , 134 pattern acquisition unit, 136 model information transmission unit, 142 position information acquisition unit, 144 position acquisition unit, 146 orientation acquisition unit, 148 direction derivation unit, 150 presentation unit, 162 application identification unit, 164 profile acquisition unit, 166 earphone Judgment unit, 168 communication scheme acquisition unit, 172 directivity pattern, 174 directivity pattern, 176 directivity pattern, 182 holding data, 184 holding data, 210 flying object, 212 coverage area, 220 wireless base stations, 300 users, Reference numeral 400 management server, 402 information storage unit, 404 application transmission unit, 406 reception status data reception unit, 408 model information reception unit, 410 pattern transmission unit, 412 holding data transmission unit, 414 machine learning unit, 416 terminal position information reception unit , 418 terminal direction information reception unit, 420 relay station position information reception unit, 422 recommendation information transmission unit, 900 computer, 910 SoC, 922 main memory, 924 flash memory, 952 USB port, 954 card slot

Claims (14)

A wireless communication terminal provided with an antenna,
A model information acquisition unit that acquires model information of the wireless communication terminal;
A pattern acquisition unit for acquiring a directivity pattern of the antenna corresponding to the model information;
A position acquisition unit that acquires the position of the wireless communication terminal;
A direction acquisition unit that acquires the direction of the wireless communication terminal;
A position information acquisition unit for acquiring position information indicating the position of the communication partner of the wireless communication terminal, and the wireless communication terminal recommended based on the position and orientation of the wireless communication terminal, the position information, and the directivity pattern A program for functioning as a presentation unit that presents at least one of the orientation and holding manner of The wireless communication terminal
It is a program for further functioning as a model information transmission unit that transmits the model information to a server,
The program according to claim 1, wherein the pattern acquisition unit receives the directivity pattern of the antenna corresponding to the model information from the server.   The pattern acquisition unit is the directivity corresponding to the model information acquired by the model information acquisition unit from a pattern storage unit that stores a plurality of directivity patterns corresponding to a plurality of model information included in the wireless communication terminal. The program according to claim 1, wherein the pattern is read out. The wireless communication terminal
A program for causing a position information receiving unit that receives the position information of the communication partner, and a position information storage unit that stores the position information received by the position information receiving unit.
The program according to any one of claims 1 to 3, wherein the position information acquisition unit acquires the position information from the position information storage unit.   The program according to claim 4, wherein the position information receiving unit periodically or irregularly receives the position information of the communication partner. The wireless communication terminal
An application identification unit for identifying an application executed by the wireless communication terminal;
A program to make it function as
The display unit according to any one of claims 1 to 5, wherein the presentation unit presents at least one of the recommended orientation and holding manner of the wireless communication terminal based further on the application identified by the application identification unit. Programs. The wireless communication terminal
A program for further functioning as a profile acquisition unit for acquiring a user profile of a user who uses the wireless communication terminal,
The program according to any one of claims 1 to 6, wherein the presentation unit presents at least one of the recommended orientation and holding manner of the wireless communication terminal based further on the user profile.   The program according to claim 7, wherein the user profile includes at least one of gender and age of the user. The wireless communication terminal
A program for causing the wireless communication terminal to further function as an earphone determination unit that determines whether an earphone is connected or not.
The display unit presents at least one of the recommended orientation and holding manner of the wireless communication terminal based on whether the earphone is connected to the wireless communication terminal or not. The program described in one paragraph. The wireless communication terminal
It is a program for making it function as a communication system acquisition part which acquires a communication system of the above-mentioned wireless communication terminal,
The program according to any one of claims 1 to 9, wherein the presentation unit presents at least one of the recommended orientation and holding manner of the wireless communication terminal based further on the communication scheme.   The presentation unit is a reception level of radio waves from the communication partner based on a direction in which the communication partner is located based on the position of the wireless communication terminal, an orientation of the wireless communication terminal, and the directivity pattern. The program according to any one of claims 1 to 10, which presents at least one of the orientation and holding manner of the wireless communication terminal in which is higher.   The presentation unit is configured to receive the radio wave from the wireless communication terminal based on a direction in which the communication partner is located based on the position of the wireless communication terminal, an orientation of the wireless communication terminal, and the directivity pattern. The program according to any one of claims 1 to 11, presenting at least one of the orientation and holding manner of the wireless communication terminal in which the reception level of the communication partner is higher.   The communication partner is at least one of a balloon, an unmanned aerial vehicle, a communication satellite, and a stratosphere platform for providing a radio communication service to a radio communication terminal on the ground by circulating the stratosphere. The program described in. A wireless communication terminal comprising an antenna, wherein
A model information acquisition unit that acquires model information of the wireless communication terminal;
A pattern acquisition unit for acquiring a directivity pattern of the antenna corresponding to the model information;
A position acquisition unit that acquires the position of the wireless communication terminal;
An orientation acquisition unit that acquires the orientation of the wireless communication terminal;
A position information acquisition unit that acquires position information indicating the position of the communication partner of the wireless communication terminal;
A presentation unit for presenting at least one of the recommended orientation and holding manner of the wireless communication terminal based on the position and orientation of the wireless communication terminal, the directivity pattern, and the position information.

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