JP7350531B2 - Wireless communication device and method - Google Patents

Description

TECHNICAL FIELD The present invention relates to wireless communication devices and methods.

When a wireless communication device is powered on or returns to service area, it is necessary to perform a base station search to determine an appropriate base station to connect to, and to register the location with the network via the base station. After location registration, the wireless communication device stores base station information regarding the base station at the time of location registration (such as the frequency operated by the base station) as search auxiliary information for the next base station search (non-patent literature 1).

According to Non-Patent Document 1, when searching for a base station, a wireless communication device checks whether or not search auxiliary information is stored, and performs a limited base station search (hereinafter referred to as "first base station search") based on the search auxiliary information. A base station search is performed first.

If search auxiliary information is not stored or the first base station search fails, the wireless communication device performs a base station search (hereinafter referred to as "second base station search") for all frequencies supported by the wireless communication device. call).

Normally, since the environment (geographical location, etc.) in which a wireless communication device is located does not change frequently, there is a high possibility that the wireless communication device will stay near the same base station for a long time. Therefore, since there is a high possibility that the first base station search will be successful, there is no need to perform the second base station search, and an appropriate base station can be efficiently and quickly discovered.

3GPP Technical Specification “3GPP TS 23.122 V15.5.0”, September 2018

By the way, when a wireless communication device is mounted on a moving object such as a car that is moving at high speed, the environment in which the wireless communication device is located may change frequently. In this case, the first base station search is likely to fail. In that case, compared to the case where the second base station search is performed from the beginning, there is a problem in that power and time are wasted. Such problems are particularly serious for wireless communication devices (such as IoT communication devices) that require low power consumption.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a wireless communication device and method that can reduce power consumption by realizing efficient base station searches.

A wireless communication device according to a first aspect includes a communication unit and a first base station search based on the search auxiliary information when search auxiliary information used to search for a base station to connect to is stored. and a control unit that performs the operation. The control unit performs a second base station search for all frequencies supported by the communication unit if the first base station search fails or the search auxiliary information is not stored. The control unit may store base station information regarding the destination base station as the search auxiliary information based on a movement state of the wireless communication device when performing location registration via the destination base station. Decide whether or not.

The method according to the second aspect is performed by a wireless communication device. The method includes the steps of: performing a first base station search based on the search auxiliary information when search auxiliary information used to search for a base station to connect to is stored; If the search fails, or if the auxiliary search information is not saved, the communication unit searches for a second base station on all frequencies supported by the communication unit, and registers the location via the destination base station. and determining whether base station information regarding the base station to which the wireless communication device is connected is to be stored as the search assistance information, based on a movement state of the wireless communication device at the time of the search.

According to one aspect of the present invention, it is possible to provide a wireless communication device and a method thereof that can reduce power consumption by realizing an efficient base station search.

1 is a diagram showing the configuration of a mobile communication system according to an embodiment. FIG. 1 is a diagram showing the configuration of a wireless communication device according to an embodiment. FIG. 2 is a diagram illustrating an example of the operation of a wireless communication device according to an embodiment. FIG. 7 is a diagram illustrating a first modification of the operation of the wireless communication device according to an embodiment. FIG. 7 is a diagram illustrating a second modification example of the operation of the wireless communication device according to an embodiment. FIG. 7 is a diagram illustrating a third modification example of the operation of the wireless communication device according to an embodiment.

Embodiments will be described below with reference to the drawings.

(Mobile communication system configuration)
FIG. 1 is a diagram showing the configuration of a mobile communication system 1 according to an embodiment.

As shown in FIG. 1, the mobile communication system 1 includes a wireless communication device 100 and a plurality of carrier networks 40 (40a and 40b) provided by different carriers. The carrier network 40 is sometimes called a PLMN (Public Land Mobile Network).

Each carrier network 40 uses a second generation mobile communication system such as GSM (registered trademark) (Global System for Mobile communications), a third generation mobile communication system such as CDMA (Code Division Multiple Access), or LTE (Long Termination). m The mobile communication system may be compatible with any mobile communication system, such as a fourth generation mobile communication system such as Evolution), or a fifth generation mobile communication system. Such a mobile communication system is sometimes called Radio Access Technology (RAT). The fifth generation mobile communication system is sometimes called New RAT (NR). Such a mobile communication method may be a mobile communication method defined by a standardization organization. The standardization organization may be 3GPP (3rd Generation Partnership Project), IEEE (Institute of Electrical and Electronics Engineers), or the like.

Each carrier network 40 may support different mobile communication systems. For example, the carrier network 40a supports LTE and CDMA, and does not support NR. The carrier network 40b supports LTE and NR, but does not support CDMA.

In a particular mobile communication system, each carrier network 40 may support different frequency bands. For example, the carrier network 40a may support LTE bands 1, 3, 19, and 21, and the carrier network 40b may support only LTE bands 1 and 19.

Each carrier network 40 may cover different geographic areas. For example, carrier network 40a may cover urban areas and suburban areas, and carrier network 40b may cover only urban areas.

Each carrier network 40 manages multiple base stations 30. Each carrier network 40 has a network device (not shown) that manages the location of the wireless communication device 100. An example of such a network device is a Mobility Management Entity (MME).

Each base station 30 supports at least one of the above mobile communication systems. Each base station 30 provides a mobile communication service using at least one of the above-mentioned mobile communication systems in its own coverage area. Such coverage areas are sometimes referred to as "cells."

Each base station 30 manages one or more cells. When each base station 30 manages a plurality of cells, each base station 30 may provide mobile communication services using different mobile communication methods and different frequencies in each cell. Although not shown in FIG. 1, one base station 30 may belong to multiple carrier networks 40. In other words, one base station 30 may be shared by multiple carrier networks 40.

Each base station 30 periodically broadcasts a radio signal used by the wireless communication device 100 to search for its own base station 30 . The radio signal includes at least one of a reference signal, a synchronization signal, a control signal, and broadcast information. The broadcast information includes a PLMN number indicating the carrier network 40 to which this base station 30 belongs.

The wireless communication device 100 may be any wireless communication device such as a communication module, an IoT device, a mobile phone, a smartphone, or a personal computer. Although not shown in FIG. 1, the wireless communication device 100 may be mounted on a moving body such as a vehicle.

The wireless communication device 100 discovers a base station 30 suitable as a connection destination through a base station search, and performs location registration by performing a location registration procedure with the carrier network 40 to which the base station 30 belongs. As an example of a location registration procedure, the wireless communication device 100 transmits a request message requesting location registration to a network device provided in the carrier network 40 to which the base station 30 belongs, and sends a response message to the request message to the network device. Receive from the device. If the response message indicates approval of the location registration request, the location registration procedure is successful. If the response message indicates that the request for location registration is rejected, the location registration procedure fails.

(Configuration of wireless communication device)
FIG. 2 is a diagram showing the configuration of wireless communication device 100 according to one embodiment.

As shown in FIG. 2, the wireless communication device 100 includes an antenna 110, a communication section 120, a control section 130, a storage section 140, a battery 150, a GNSS receiver 160, and an acceleration sensor 170. A SIM card 180 can be connected to the wireless communication device 100 via an interface (not shown).

Antenna 110 transmits and receives wireless signals to and from base station 30 . The communication unit 120 performs wireless communication with the base station 30 via the antenna 110.

The communication unit 120 supports at least one of the above-mentioned mobile communication systems.

The control unit 130 performs various processes and controls in the wireless communication device 100. Control unit 130 includes at least one processor. The processor may include a baseband processor and a CPU (Central Processing Unit). The baseband processor performs modulation/demodulation, encoding/decoding, etc. of the baseband signal. The CPU executes programs stored in the storage unit 140 to perform various processes.

The storage unit 140 includes a volatile memory and a nonvolatile memory, and stores programs executed by the control unit 130 and information and data used for processing by the control unit 130.

Battery 150 supplies driving power for wireless communication device 100 .

The GNSS receiver 160 acquires position information (latitude and longitude information) and outputs the acquired position information to the control unit 130. The GNSS receiver 160 is a GPS (Global Positioning System) receiver, a GLONASS (Global Navigation Satellite System) receiver, or an IRNSS (Indian Regional Navigation System) receiver. nal Satellite System) receiver, COMPASS receiver, Galileo receiver, QZSS (Quasi-Zenith Satellites) (System) receiver, etc. In one embodiment, a configuration in which the GNSS receiver 160 is provided in the wireless communication device 100 is illustrated, but the GNSS receiver 160 does not need to be provided in the wireless communication device 100. The GNSS receiver 160 may be provided in a mobile body in which the wireless communication device 100 is mounted. If the wireless communication device 100 is not provided with the GNSS receiver 160, the control unit 130 may acquire position information from the GNSS receiver 160 provided in the mobile body in which the wireless communication device 100 is mounted. .

Acceleration sensor 170 measures the acceleration of wireless communication device 100 and outputs a value indicating the measured acceleration to control unit 130. Acceleration sensor 170 may be a uniaxial acceleration sensor or a multiaxial acceleration sensor. In one embodiment, a configuration in which the acceleration sensor 170 is provided within the wireless communication device 100 is illustrated, but the acceleration sensor 170 does not need to be provided within the wireless communication device 100. If the wireless communication device 100 is not provided with the acceleration sensor 170, the control unit 130 may acquire acceleration information from the acceleration sensor 170 provided in the mobile body on which the wireless communication device 100 is mounted.

The SIM card 180 is an IC card that records information for identifying a subscriber, information regarding available services to which the subscriber has a contract, and the like. Information necessary for receiving services is recorded in the SIM card 180.

SIM card 180 may be an embedded eSIM (Embedded SIM). SIM card 180 may be located outside wireless communication device 100. The SIM card 180 may be provided by a communication carrier or may be obtained by other means. The user can use the wireless communication device 100 by attaching or connecting the provided SIM card 180 to the wireless communication device 100.

The storage unit 140 may store search auxiliary information, which will be described later. The search assistance information may be stored in the SIM card 180. Usually, search auxiliary information is not stored in the storage unit 140 when the wireless communication device 100 is shipped. Further, in some cases, the control unit 130 may delete search assistance information stored in the storage unit 140 and/or the SIM card 180.

The search auxiliary information is information used when the wireless communication device 100 searches for a base station. The search auxiliary information may be information for limiting the range to be searched. The range to be searched may be a frequency range.

After the location registration, the wireless communication device 100 stores base station information regarding the base station 30 to which it is connected at the time of location registration as search auxiliary information for the next base station search.

The search auxiliary information includes at least one of communication carrier network information, mobile communication system information, and frequency band information.

The carrier network information is information that specifies at least one carrier network 40 (such as a PLMN number). The control unit 130 performs a first base station search targeting the carrier network 40 specified by the carrier network information included in the search auxiliary information.

The mobile communication method information is information for specifying at least one mobile communication method. For example, the mobile communication system information indicates LTE. The control unit 130 performs a first base station search using the mobile communication system specified by the mobile communication system information included in the search auxiliary information.

Frequency band information is information for specifying at least one frequency band. The frequency band may be an identifier of a frequency band belonging to a specific mobile communication system (hereinafter referred to as a "frequency band identifier"), a single number representing the frequency band, or a combination of two numbers. It may be a range specified by. The frequency band identifier may be, for example, an LTE band number. Information indicating the correspondence between frequency band identifiers and frequency bands may be stored in the storage unit 140 and/or the SIM card 180 in advance. The control unit 130 performs a first base station search in the frequency band specified by the frequency band information included in the search auxiliary information.

In the wireless communication device 100 configured as described above, when searching for a base station to connect to, the control unit 130 performs a first base station search based on the search auxiliary information if the search auxiliary information is stored. conduct.

The first base station search is performed by storing information regarding the base stations 30 to which the wireless communication device 100 has connected in the past as search auxiliary information. It is used for searching. Here, "the search auxiliary information is stored" means that the search auxiliary information exists in the storage unit 140 and/or the SIM card 180.

Furthermore, if the first base station search fails or if the search auxiliary information is not stored, the control unit 130 performs a second base station search for all frequencies supported by the communication unit 120. Specifically, the control unit 130 attempts to receive radio signals from the base station over a frequency range consisting of all frequencies supported by the communication unit 120. That is, the second base station search is a base station search that targets a wider frequency range than the first base station search. Note that, when the communication unit 120 supports a plurality of mobile communication systems, the control unit 130 may perform the second base station search targeting all frequencies of the plurality of mobile communication systems.

Then, if the first base station search or the second base station search is successful, the control unit 130 determines the movement state of the wireless communication device 100 when performing location registration via the connection destination base station 30 determined by the search. Based on this, it is determined whether the base station information regarding the base station 30 of the connection destination is to be stored as search assistance information.

The base station information includes at least one of communication carrier network information, mobile communication system information, and frequency band information regarding the base station 30 to which the base station 30 is connected. The control unit 130 acquires the carrier network to which the base station 30 belongs, the mobile communication system supported by the base station 30, and the frequency band operated by the base station 30 from the wireless signal received from the base station 30 to which the base station 30 is connected. You may.

Specifically, the control unit 130 determines that the base station information is to be stored as search auxiliary information when the value indicating the moving state is less than or equal to the first threshold, and when the value indicating the moving state is greater than the first threshold. The base station information is determined not to be saved as search assistance information.

The moving state of the wireless communication device 100 may be at least one of the moving speed of the wireless communication device 100 and the acceleration of the wireless communication device. For example, the control unit 130 may calculate the moving speed of the wireless communication device 100 based on the change in position indicated by the position information acquired from the GNSS receiver 160. The control unit 130 may obtain a value indicating the acceleration of the wireless communication device 100 from the acceleration sensor 170. Alternatively, the control unit 130 may estimate the moving speed of the wireless communication device 100 from the number of cell movements per unit time (for example, the number of cell reselections or the number of handovers).

In this manner, it is determined whether base station information regarding the destination base station 30 is to be stored as search assistance information based on the movement state. For example, when moving at high speed, there is a high possibility that the search auxiliary information will not be useful when performing a base station search next time (that is, there is a high possibility that the first base station search will fail). It becomes possible not to save it as . As a result, when searching for a base station to connect to afterwards, the first base station search can be omitted and the second base station search can be started, resulting in a reduction in the overall search time. , power consumption can be reduced.

(Example of operation of wireless communication device)
FIG. 3 is a diagram illustrating an example of the operation of the wireless communication device 100 according to an embodiment.

The operation flow in FIG. 3 is started in a situation where wireless communication device 100 needs to search for a base station to connect to. Such a situation may be a situation such as turning on the power of the wireless communication device 100 or returning out of service area.

As shown in FIG. 3, in step S11, the control unit 130 checks whether search assistance information is stored. Specifically, the control unit 130 accesses the storage unit 140 or the SIM card 180 and checks whether the search auxiliary information exists in the storage unit 140 or the SIM card 180.

If the search auxiliary information is stored (step S11: YES), in step S12, the control unit 130 performs a first base station search based on the search auxiliary information. For example, the control unit 130 determines a frequency range to be searched based on the search auxiliary information, and attempts to receive a wireless signal from the base station 30 over the frequency range for a predetermined period.

In step S14, the control unit 130 determines whether the first base station search was successful. Specifically, the control unit 130 checks whether the wireless signal received by the first base station search satisfies a predetermined standard, and determines that the search is successful if it is confirmed that the wireless signal that satisfies the predetermined standard is received. do. The predetermined standard may be a standard that should be satisfied by the reception strength, reception quality, etc. of the wireless signal.

On the other hand, if the search auxiliary information is not stored (step S11: NO) or if it is determined that the first base station search has failed (step S14: NO), in step S13, the control unit 130 controls the communication unit 120. A second base station search is performed for all frequencies supported by the base station. Then, the control unit 130 advances the process to step S14.

If a wireless signal that satisfies the predetermined criteria is received by the first base station search or the second base station search (step S14: YES), in step S15, the control unit 130 selects the base station 30 that is transmitting the wireless signal. A connection procedure is performed for the base station 30, and a location registration procedure is performed for the communication carrier network 40 to which the base station 30 belongs.

When the control unit 130 receives a plurality of radio signals that meet the predetermined criteria, the control unit 130 may perform a connection procedure to the base station 30 transmitting the radio signal with the highest reception strength or the best reception quality.

In step S16, the control unit 130 detects the movement state of the wireless communication device 100 when performing location registration (that is, acquires a value indicating the movement state). "When performing location registration" may be the time when a response message indicating approval of the location registration request is received, or the time when a request message requesting location registration is transmitted.

In steps S17 to S19, the control unit 130 determines whether base station information regarding the base station 30 to be connected is to be stored as search auxiliary information based on the movement state of the wireless communication device 100 detected in step S16. .

Specifically, in step S17, the control unit 130 compares a value indicating the movement state of the wireless communication device 100 with a first threshold value. If the value indicating the movement state is less than or equal to the first threshold (step S17: NO), in step S18, the control unit 130 determines to save the base station information as search auxiliary information, and stores the base station information in the storage unit 140. and/or stored in the SIM card 180. If the search auxiliary information is already stored in the storage unit 140 and/or the SIM card 180, the control unit 130 may overwrite the stored search auxiliary information.

On the other hand, if the value indicating the movement state is larger than the first threshold (step S17: YES), in step S19, the control unit 130 determines not to save the base station information as search auxiliary information, and stores the base station information. 140 and/or the SIM card 180.

(Change example 1)
In the operation of the wireless communication device 100 in the above-described operation example, it is determined whether or not to save base station information as search auxiliary information based on the movement state of the wireless communication device 100 at the time of location registration. Such a determination may also be made taking into consideration the radio wave situation in the wireless communication device 100.

If the radio wave condition at the wireless communication device 100 is poor (for example, the reception strength of the wireless signal from the destination base station 30 is weak), the wireless communication device 100 may be located at the edge of the coverage area of the connection destination base station 30. For example, even if the wireless communication device 100 is moving at low speed, there is a high possibility that the wireless communication device 100 will leave this coverage area the next time it searches for a base station, so there is a high possibility that the first base station search will fail.

In modification example 1, the control unit 130 indicates the radio wave condition in the wireless communication device 100 at the time of location registration even if the value indicating the movement state of the wireless communication device 100 at the time of location registration is less than or equal to the first threshold value. If the value is less than the second threshold, it is determined that the base station information is not stored as search assistance information.

In this way, it is possible to avoid storing base station information that is likely to be useless when searching for a base station next time as search auxiliary information. As a result, the first base station search can be omitted and the search can be started from the second base station search, so that the overall search time can be shortened and power consumption can be reduced.

FIG. 4 is a diagram illustrating a first modification of the operation example of the wireless communication device. Here, differences from FIG. 3 will be explained.

As shown in FIG. 4, the content of each process in steps S11 to S17, S18, and S19 is the same as that in FIG. 3, but differs from FIG. 3 in that operations related to radio wave conditions are performed in steps S21 to S22.

In step S21, the control unit 130 detects the radio wave condition in the wireless communication device 100 when performing location registration (that is, acquires a value indicating the radio wave condition).

The radio wave condition in the wireless communication device 100 is determined based on the reception strength of the wireless signal received by the control unit 130 from the base station 30 to which the wireless communication device 100 is connected, and the channel quality of the communication channel between the wireless communication device 100 and the base station 30 to which the wireless communication device 100 is connected (for example, SINR: Signal-to-Interference plus Noise power Ratio).

In step S22, the control unit 130 compares a value indicating the radio wave condition with a second threshold value. If the value indicating the radio wave condition is less than the second threshold (step S22: YES), in step S19, the control unit 130 determines not to save the base station information as search auxiliary information, and stores the base station information in the storage unit 140. and/or not stored on the SIM card 180. On the other hand, if the value indicating the radio wave condition is larger than the second threshold (step S22: NO), in step S18, the control unit 130 determines to save the base station information as search auxiliary information, and stores the base station information in the storage unit. 140 and/or SIM card 180.

(Change example 2)
In the operation of the wireless communication device 100 in the above-described operation example, it is determined whether or not to save base station information as search auxiliary information based on the movement state of the wireless communication device 100 at the time of location registration. Such a determination may also be made taking into account the coverage range of the base station 30 to which the base station 30 is connected.

If the coverage range of the base station 30 to connect to is narrow, for example, even if the wireless communication device 100 is moving at low speed, there is a high possibility that it will move out of this coverage range the next time it searches for a base station. more likely to fail. For example, examples of the base station 30 with a narrow coverage range include a femtocell base station (also called a home base station), a picocell base station, a microcell base station, and the like.

In modification example 2, even if the value indicating the moving state is less than or equal to the first threshold, the control unit 130 controls the control unit 130 if the value indicating the coverage range of the base station 30 to which the connection destination is connected is less than the third threshold. , it is determined that the base station information is not to be saved as search auxiliary information.

In this way, it is possible to avoid storing base station information that is likely to be useless when searching for a base station next time as search auxiliary information. As a result, the first base station search can be omitted and the search can be started from the second base station search, so that the overall search time can be shortened and power consumption can be reduced.

FIG. 5 is a diagram illustrating a second modification example of the operation example of the wireless communication device. Here, differences from FIG. 3 will be explained.

As shown in FIG. 5, the content of each process in steps S11 to S17, S18, and S19 is the same as that in FIG. 3, but differs from FIG. 3 in that operations regarding the coverage range are performed in steps S31 to S32.

In step S31, the control unit 130 determines the coverage range of the base station 30 to which the base station 30 is connected when performing location registration (that is, acquires a value indicating the coverage range). The control unit 130 may obtain a value indicating the coverage range of the base station 30 from the base station 30 to which the base station 30 is connected.

In step S32, the control unit 130 compares the value indicating the coverage range with the third threshold. If the value indicating the coverage range is less than the third threshold (step S32: YES), in step S19, the control unit 130 determines not to save the base station information as search auxiliary information, and stores the base station information in the storage unit 140. and/or not stored on the SIM card 180. On the other hand, if the value indicating the coverage range is larger than the third threshold (step S32: NO), in step S18, the control unit 130 determines to save the base station information as search auxiliary information, and stores the base station information in the storage unit. 140 and/or SIM card 180.

(Change example 3)
When the wireless communication device 100 is an IoT device or the like, power saving technology may be used to reduce power consumption by switching the communication unit 120 between a dormant state and an active state. The dormant state is a state in which the communication unit 120 does not transmit or receive wireless signals. The longer the duration of the hibernation state, the greater the power saving effect, so in some cases, the duration of the hibernation state may extend over several days. The duration of such a dormant state may be set in advance, or may be set by the network device and/or the base station 30. An example of such power saving technology is eDRX (extended discontinuous reception).

When the communication unit 120 returns from the dormant state to the active state, the control unit 130 needs to perform location registration again. In the operation of the wireless communication device 100 in the above-described operation example, it is determined whether or not to save base station information as search assistance information based on the movement state of the wireless communication device 100 at the time of location registration. Such a determination may be made by taking into consideration the expected length of time from when the location is registered to when the next location registration is performed. The control unit 130 can specify such an estimated time from the time from when location registration is performed to when the next location registration is performed.

If the expected time from one location registration to the next location registration is long, for example, even if the wireless communication device 100 is moving at low speed, it will not be possible to search from this coverage range when performing a base station search for the next location registration. Therefore, there is a high possibility that the first base station search will fail.

In modification example 3, even if the value indicating the movement state is less than or equal to the first threshold, the control unit 130 calculates the estimated time from location registration to the next location registration (hereinafter simply referred to as "estimated time"). If the length (referred to as "time") is longer than the fourth threshold, it is determined that the base station information is not stored as search assistance information.

In this way, it is possible to avoid storing base station information that is likely to be useless when searching for a base station next time as search auxiliary information. As a result, the first base station search can be omitted and the search can be started from the second base station search, so that the overall search time can be shortened and power consumption can be reduced.

FIG. 6 is a diagram illustrating a third modification example of the operation example of the wireless communication device. Here, differences from FIG. 3 will be explained.

As shown in FIG. 6, the contents of each process in steps S11 to S17, S18, and S19 are the same as in FIG. 3, but differ from FIG. 3 in that operations related to estimated time are performed in steps S41 to S42.

In step S41, the control unit 130 determines the expected length of time. The control unit 130 may determine the expected length of time based on a preset duration of the hibernation state.

In step S42, the control unit 130 compares the expected length of time with a fourth threshold. If the expected length of time is less than the fourth threshold (step S42: YES), in step S19, the control unit 130 determines not to save the base station information as search auxiliary information, and stores the base station information in the storage unit 140. and/or not stored on the SIM card 180. On the other hand, if the expected length of time is larger than the fourth threshold (step S42: NO), in step S18, the control unit 130 determines to save the base station information as search auxiliary information, and stores the base station information. 140 and/or the SIM card 180.

(Other embodiments)
A program that causes a computer to execute each process performed by the wireless communication device 100 may be provided. The program may be recorded on a computer readable medium. Computer-readable media allow programs to be installed on a computer. Here, the computer-readable medium on which the program is recorded may be a non-transitory recording medium. The non-transitory recording medium is not particularly limited, and may be, for example, a recording medium such as a CD-ROM or a DVD-ROM. Further, the wireless communication device 100 may be configured as a semiconductor integrated circuit (chip set, SoC) by integrating functional units (circuits) that execute each process performed by the wireless communication device 100.

Although the embodiments have been described above in detail with reference to the drawings, the specific configuration is not limited to that described above, and various design changes can be made without departing from the scope of the invention.

1: Mobile communication system 30: Base station 40: Communication carrier network 100: Wireless communication device 110: Antenna 120: Communication unit 130: Control unit 140: Storage unit 150: Battery 160: GNSS receiver 170: Acceleration sensor 180: SIM card

Claims (6)

A wireless communication device,
Communication Department and
a control unit that performs a first base station search based on the search auxiliary information when search auxiliary information used to search for a base station to connect to is stored;
When the first base station search fails or when the search auxiliary information is not stored, the control unit performs a second base station search on all frequencies supported by the communication unit,
The control unit may store base station information regarding the destination base station as the search auxiliary information based on a movement state of the wireless communication device when performing location registration via the destination base station. Decide whether or not
The control unit includes:
determining that the base station information is to be stored as the search auxiliary information when the value indicating the movement state is less than or equal to a first threshold;
determining that the base station information is not stored as the search auxiliary information when the value indicating the movement state is larger than the first threshold;
Even if the value indicating the movement state is less than or equal to the first threshold, if the value indicating the radio wave condition in the wireless communication device at the time of performing the location registration is less than the second threshold, the base determining that the station information is not to be saved as the search auxiliary information;
A wireless communication device, wherein the moving state is at least one of a moving speed of the wireless communication device and an acceleration of the wireless communication device. A wireless communication device,
Communication Department and
a control unit that performs a first base station search based on the search auxiliary information when search auxiliary information used to search for a base station to connect to is stored;
When the first base station search fails or when the search auxiliary information is not stored, the control unit performs a second base station search on all frequencies supported by the communication unit,
The control unit may store base station information regarding the destination base station as the search auxiliary information based on a movement state of the wireless communication device when performing location registration via the destination base station. Decide whether or not
The control unit includes:
determining that the base station information is to be stored as the search auxiliary information when the value indicating the movement state is less than or equal to a first threshold;
determining that the base station information is not stored as the search auxiliary information when the value indicating the movement state is larger than the first threshold;
Even if the value indicating the movement state is less than or equal to the first threshold, if the value indicating the coverage range of the destination base station is less than the third threshold, the base station information is used as the search aid. It is decided not to save it as information,
A wireless communication device, wherein the moving state is at least one of a moving speed of the wireless communication device and an acceleration of the wireless communication device. A wireless communication device,
Communication Department and
a control unit that performs a first base station search based on the search auxiliary information when search auxiliary information used to search for a base station to connect to is stored;
When the first base station search fails or when the search auxiliary information is not stored, the control unit performs a second base station search on all frequencies supported by the communication unit,
The control unit may store base station information regarding the destination base station as the search auxiliary information based on a movement state of the wireless communication device when performing location registration via the destination base station. Decide whether or not
The control unit includes:
determining that the base station information is to be stored as the search auxiliary information when the value indicating the movement state is less than or equal to a first threshold;
determining that the base station information is not stored as the search auxiliary information when the value indicating the movement state is larger than the first threshold;
Even if the value indicating the movement state is less than or equal to the first threshold, if the expected length of time from the location registration to the next location registration is longer than the fourth threshold, determining not to save the base station information as the search auxiliary information;
A wireless communication device, wherein the moving state is at least one of a moving speed of the wireless communication device and an acceleration of the wireless communication device. A method performed in a wireless communication device comprising a communication unit, the method comprising:
performing a first base station search based on the search auxiliary information when search auxiliary information used to search for a destination base station is stored;
If the first base station search fails or the search auxiliary information is not stored, performing a second base station search for all frequencies supported by the communication unit;
Based on the movement state of the wireless communication device when performing location registration via the connection destination base station, it is determined whether base station information regarding the connection destination base station is to be stored as the search auxiliary information. step and
determining that the base station information is to be stored as the search auxiliary information when the value indicating the movement state is less than or equal to a first threshold;
determining not to save the base station information as the search assistance information if the value indicating the movement state is greater than the first threshold;
Even if the value indicating the movement state is less than or equal to the first threshold, if the value indicating the radio wave condition in the wireless communication device at the time of performing the location registration is less than the second threshold, the base determining not to save the station information as the search auxiliary information;
The method, wherein the moving state is at least one of a moving speed of the wireless communication device and an acceleration of the wireless communication device. A method performed in a wireless communication device comprising a communication unit, the method comprising:
performing a first base station search based on the search auxiliary information when search auxiliary information used to search for a destination base station is stored;
If the first base station search fails or the search auxiliary information is not stored, performing a second base station search for all frequencies supported by the communication unit;
Based on the movement state of the wireless communication device when performing location registration via the connection destination base station, it is determined whether base station information regarding the connection destination base station is to be stored as the search auxiliary information. step and
determining that the base station information is to be stored as the search auxiliary information when the value indicating the movement state is less than or equal to a first threshold;
determining not to save the base station information as the search assistance information if the value indicating the movement state is greater than the first threshold;
Even if the value indicating the movement state is less than or equal to the first threshold, if the value indicating the coverage range of the destination base station is less than the third threshold, the base station information is used as the search aid. a step of determining not to save it as information;
The method, wherein the moving state is at least one of a moving speed of the wireless communication device and an acceleration of the wireless communication device. A method performed in a wireless communication device comprising a communication unit, the method comprising:
performing a first base station search based on the search auxiliary information when search auxiliary information used to search for a destination base station is stored;
If the first base station search fails or the search auxiliary information is not stored, performing a second base station search for all frequencies supported by the communication unit;
Based on the movement state of the wireless communication device when performing location registration via the connection destination base station, it is determined whether base station information regarding the connection destination base station is to be stored as the search auxiliary information. step and
determining that the base station information is to be stored as the search auxiliary information when the value indicating the movement state is less than or equal to a first threshold;
determining not to save the base station information as the search assistance information if the value indicating the movement state is greater than the first threshold;
Even if the value indicating the movement state is less than or equal to the first threshold, if the expected length of time from the location registration to the next location registration is longer than the fourth threshold, determining not to save the base station information as the search auxiliary information;
The method, wherein the moving state is at least one of a moving speed of the wireless communication device and an acceleration of the wireless communication device.

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