JP5958125B2 - Wireless communication apparatus and control method - Google Patents

Description

  The present invention relates to a wireless communication apparatus.

  In hospital rooms, wireless communication devices are often used to monitor biological information. When using the wireless communication device, a nurse or the like enters the room, the communication state suddenly deteriorates, and communication disconnection may occur. In addition, when using the wireless communication device, an infusion stand or the like is moved to the vicinity of the patient, the communication state suddenly deteriorates, and communication disconnection may occur.

  Such disconnection of communication often occurs in a closed space surrounded by an object that reflects radio waves such as a reflector. That is, a closed space such as a hospital room is surrounded by a reflector or the like. In a closed space surrounded by a reflector or the like, a strong standing wave may be generated due to multiple reflection of radio waves. The occurrence of a strong standing wave may cause the electric field to drop deeply. When the electric field drops deeply, communication is disconnected.

  Particularly in hospital rooms, the frequency with which the patient moves or the frequency with which other objects such as a drip stand are moved is low. For this reason, when a wireless communication device is brought into a hospital room, the propagation state of the radio wave is fixed. For example, when a medical device is newly brought in, the propagation state in the hospital room may change, and a standing wave may be generated. The range in which the electric field strength falls deeply due to the occurrence of the standing wave is fixed at the position of the wireless communication device used for monitoring the biological information of the patient on the bed. In this case, the state in which communication is interrupted may continue for a long time.

  When standing waves are generated outdoors or in an urban environment, the electric field strength may drop deeply. However, since the movement of humans and the like is frequent outside or in an urban environment, the propagation state constantly changes over time. Therefore, the measured value of the electric field strength is rarely fixed. In this case, it is known that the electric field strength exhibits a Rayleigh distribution.

  There is known a communication device that presents a user or the like with a good propagation state (see, for example, Patent Document 1).

International Publication No. 2005/094110

  The disconnection of communication that occurs when monitoring biological information in a hospital room increases patient anxiety. In particular, it is not known how to cope with the case where the range in which the electric field strength falls deeply is fixed at the position of the wireless communication device used for monitoring the patient's biological information on the bed.

  An object of the disclosed wireless communication apparatus is to improve communication quality with a communication partner.

A wireless communication apparatus according to an embodiment of the disclosure acquires a communication quality of a signal received from a communication partner , a sensor that detects a movement state of the wireless communication apparatus , time series data of the communication quality, and the sensor A control unit that determines a position where communication quality can be improved based on the detected movement state of the own wireless communication device, and a presentation unit that presents a position where the communication quality determined by the control unit can be improved. When the control unit determines that the communication quality continues to improve in a predetermined time from the time series data of the communication quality and the movement state is moving at a substantially constant speed, the control unit sends the communication to the presenting unit. If it is determined that the communication quality continues to deteriorate in a predetermined time from the time series data of the communication quality without presenting the position where the quality can be improved, and the state of movement is moving at a substantially constant speed, the presentation The communication quality The position where the communication quality can be improved is presented to the presenting unit when it is determined that the communication quality is repeatedly improved and decreased in a predetermined time from the time series data of the communication quality. Without performing, when it is determined that the communication quality is small in a predetermined time from the time series data of the communication quality and the communication quality is low, the presenting unit presents a position where the communication quality can be improved, When it is determined from the time series data of the communication quality that the fluctuation of the communication quality is small and the communication quality is high in a predetermined time, a position where the communication quality can be improved is not presented to the presenting unit .

  According to the disclosed embodiment, communication quality with a communication partner can be improved.

It is a figure which shows one Example of a radio | wireless communications system. It is a figure which shows one Example of a radio | wireless communication apparatus. It is a figure which shows the example of presentation to a display apparatus. It is a figure which shows an example of the time change of an electric field strength. It is a functional block diagram which shows one Example of a radio | wireless communication apparatus. It is a figure which shows one Example of operation | movement of a radio | wireless communication apparatus. It is a figure which shows the example of presentation to a display apparatus. It is a figure which shows the example of presentation to a display apparatus. It is a flowchart which shows one Example of operation | movement of a radio | wireless communication apparatus.

Embodiments will be described below with reference to the drawings.
In all the drawings for explaining the embodiments, the same reference numerals are used for those having the same function, and repeated explanation is omitted.

<Wireless communication system>
FIG. 1 shows an embodiment of a wireless communication system.

The wireless communication system includes a first wireless communication device 100 and a second wireless communication device 200 _n (n is an integer where n> 0). FIG. 1 shows the case where n = 3. n = 1, 2 may be sufficient and n> 3 may be sufficient. The first wireless communication device 100 may function as a hub (HUB). The second wireless communication apparatus 200 _n may be configured to function as a sensor node. The wireless communication system may include a body area network (BAN: Body Area Network).

  One embodiment of the wireless communication system is formed in a closed space surrounded by an object that reflects radio waves such as a reflector. The present invention is not limited to a closed space surrounded by an object that reflects radio waves such as a reflector, and can be applied to various environments.

The second wireless communication device _200n is attached to the patient 10, for example. The second wireless communication device 200 _n acquires the biological information of the patient 10. The second wireless communication device 200 _n transmits the biological information of the patient 10 to the first wireless communication device 100.

The first wireless communication device 100 transmits the biological information from the second wireless communication device 200 _n to the access point 300.

The first wireless communication apparatus 100 measures the reception quality (communication quality) based on a radio signal from the second wireless communication apparatus 200 _n. In one embodiment of the first wireless communication apparatus 100, a case of measuring the received field strength of a radio signal from the second wireless communication apparatus 200 _n. As the reception quality, an index other than the reception electric field strength may be used. In one embodiment of the first wireless communication device 100 presents the position received field strength can be improved between the second wireless communication apparatus 200 _n. The first wireless communication apparatus 100, when the disconnection of the communication between the second wireless communication apparatus 200 _n, presents a position capable of restoring the communication to the user.

  The access point 300 transmits the biological information from the first wireless communication device 100 to a communication device (not shown). The communication device may be a device that analyzes biological information.

<First Wireless Communication Device 100>
FIG. 2 shows an embodiment of the first wireless communication device 100. FIG. 2 mainly shows the hardware configuration of the first wireless communication apparatus 100.

  The first wireless communication device 100 includes an RFIC 102, a baseband processing device 116, a sensor 126, and a display device 128.

  The RFIC 102 includes a hand pass filter 106, an amplifier 108, a band pass filter 110, a mixer 112, and a local oscillator 114.

  The hand pass filter 106 is connected to the antenna 104. The bandpass filter 106 limits the band of the radio signal from the antenna 104. A diversity antenna may be applied to the antenna 104.

  The amplifier 108 is connected to the band pass filter 106. The amplifier 108 is constituted by, for example, a low noise amplifier (LNA: Low Noise Amplifier). The amplifier 108 amplifies the signal whose band is limited by the band pass filter 106.

  The band pass filter 110 is connected to the amplifier 108. The band pass filter 110 limits the band of the signal amplified by the amplifier 108.

  The mixer 112 is connected to the band pass filter 110. The mixer 112 down-converts the RF signal from the band pass filter 110 into a baseband signal. Specifically, the mixer 112 mixes the RF signal from the bandpass filter 110 with a local oscillation (LO) signal.

  The local oscillator 114 is connected to the mixer 112. The local oscillator 114 inputs a local transmission signal to the mixer 112.

  The baseband processing device 116 includes an automatic gain control unit (AGC: Auto Gain Control) 118, an A / D converter 120, a baseband signal processing circuit 122, and a storage device 124.

  The AGC 118 is connected to the RFIC 102. The AGC 118 controls the gain of the signal from the RFIC 102. Specifically, the AGC 118 adjusts the amplitude of the signal from the RFIC 102.

  The A / D converter 120 is connected to the AGC 118. The A / D converter 120 converts the signal from the AGC 118 into a digital signal. Since the amplitude of the signal is adjusted by the AGC 118, it is possible to avoid saturation of the signal. In addition, the AGC 118 monitors the time change of the signal amplitude and supplies it to the baseband signal processing circuit 122 through the A / D converter 120.

  The baseband signal processing circuit 122 is connected to the A / D converter 120. The baseband signal processing circuit 122 may include a central processing unit (CPU) or a digital signal processor (DSP).

  Based on the signal from the A / D converter 120, the baseband signal processing circuit 122 obtains reception quality for each predetermined period. For example, the baseband signal processing circuit 122 obtains the received electric field strength at predetermined intervals based on the signal from the A / D converter 120.

The baseband signal processing circuit 122 obtains time-series data of received electric field intensity of the radio signal from the second wireless communication apparatus 200 _n. Further, the baseband signal processing circuit 122 obtains a position where the received electric field strength can be improved based on the time series data of the received electric field strength and the information input by the sensor 126. The baseband signal processing circuit 122, when the communication between the second wireless communication apparatus 200 _n is disconnected, and the time-series data of the received field strength, based on the information input by the sensor 126, The position where communication is restored is determined. Specifically, the baseband signal processing circuit 122 obtains a position where the received electric field strength can be improved. The baseband signal processing circuit 122 obtains a position where communication can be recovered. The baseband signal processing circuit 122 presents the display device 128 with a position where the received electric field strength is improved or a position where communication is restored.

  The storage device 124 is connected to the baseband signal processing circuit 122. The storage device 124 stores a program for causing the baseband signal processing circuit 122 to function as the first wireless communication device 100. The baseband signal processing circuit 122 functions as the first wireless communication device 100 by functioning according to the program stored in the storage unit 124.

  The sensor 126 is connected to the baseband signal processing circuit 122. The sensor 126 includes, for example, a sensor that can detect the movement or movement of the patient 10, that is, the state of the wireless communication device 100, such as an acceleration sensor or a speed sensor. In one embodiment of the first wireless communication apparatus 100, a case where an acceleration sensor is used as the sensor 126 will be described. The same applies to the case where another sensor is used as the sensor 126. From the viewpoint of detecting the tilt of the patient 10, the acceleration sensor is preferably a triaxial sensor. The sensor 126 inputs information representing acceleration to the baseband signal processing circuit 122.

  The display device 128 is connected to the baseband signal processing circuit 122. The display device 128 displays a position where the received electric field intensity input from the baseband signal processing circuit 122 can be improved and a position where communication can be recovered.

  FIG. 3 shows a presentation example of a position where communication is restored.

  FIG. 3 shows one main surface of the first wireless communication apparatus 100. On one main surface, the display surface of the display device 128 and various switches 136 are shown.

In the example shown in FIG. 3, when the communication with the second wireless communication device 200 _n is disconnected, the electric field strength measured before the communication is disconnected is divided for each predetermined range. Is displayed. Further, in the example shown in FIG. 3, the electric field strength estimated based on the electric field strength measured before the communication is disconnected is also displayed. In FIG. 3, the electric field strength is represented by the electric field strength division 134 _m (m is an integer of m> 0). For example, based on the measured field strength before the communication is disconnected, the electric field strength class 134 ₁ -134 ₄ is displayed. The electric field strength decreases as the electric field strength sections become 134 ₁ -134 ₄ . Current position 132 is displayed on the field strength class 134 _4. That is, the communication between the second wireless communication apparatus 200 _n in field strength class 134 ₄ is disconnected. In this case, the position of the field strength class 134 ₄ is assumed to be a valley of the electric field strength.

  FIG. 4 shows an example of the time change of the electric field strength.

  In wireless communication, when there is a reflected wave from the wall of a room or surrounding objects, a standing wave is generated. At this time, a point with a strong electric field (mountain) and a point with a weak electric field (valley) alternate in space. Distributed. Therefore, when the communication is cut off as a result of the electric field strength dropping from the mountain to the valley as shown in FIG. 4 for some reason, the mountain part with strong electric field is distributed around the area for the above reason. It is estimated that Therefore, it is predicted that the electric field strength is restored to the mountain state again due to the spatial movement from the position of the valley of the electric field. In FIG. 4, the time fluctuation of the received electric field that falls from the mountain to the valley is a measured value, but the time fluctuation that increases from the valley to the mountain is a predicted value.

Thus, the electric field strength is expected to increase with distance from the valley of the electric field strength, so that the electric field intensity increases with distance from the valley of the electric field strength, electric field strength class 134 ₅ -134 ₇ is displayed. Here, the user moves the first wireless communication apparatus 100, moves the second wireless communication apparatus _200n , moves surrounding objects, and the like so that the current position 132 does not become a valley of the electric field strength. In this way, the first wireless communication device 100, it is possible to improve the reception field strength of a radio signal from the second wireless communication apparatus 200 _n, the second wireless communication apparatus 200 _n Communication between them can be recovered.

<Functions of Baseband Processing Device 116>
An example of the function of the first wireless communication apparatus 100 will be described.

  FIG. 5 is a functional block diagram illustrating an example of functions of the wireless communication device 100. The functions represented by this functional block diagram are mainly executed by the baseband signal processing circuit 122. That is, the function represented by the functional block diagram of FIG. 5 is executed by the baseband signal processing circuit 122 according to the application stored in the storage unit 124. Further, it may be executed by the CPU according to an application (firmware) stored in the internal memory of the CPU included in the baseband signal processing circuit 122.

  The baseband signal processing circuit 122 functions as the electric field strength measuring unit 1222. The signal from the A / D converter 120 is input to the electric field strength measuring unit 1222. The electric field strength measuring unit 1222 measures the received electric field strength E (t) of the signal from the A / D conversion unit 120 at every predetermined period Δt. The electric field strength measuring unit 1222 inputs information representing the received electric field strength E (t) to the electric field strength time variation calculating unit 1224.

  The baseband signal processing circuit 122 functions as the electric field strength time variation calculation unit 1224. The electric field strength time variation calculation unit 1224 is connected to the electric field strength measurement unit 1222. The received electric field strengths E (t) and E (t + Δt) are input from the AGC 118 to the electric field strength time fluctuation calculation unit 1224 via the A / D conversion unit 120.

  The electric field strength time variation calculation unit 1224 calculates the amplitude of the time variation of the electric field strength between time t and time t + Δt based on the received electric field strengths E (t) and E (t + Δt) from the electric field strength measurement unit 1222 in the AGC 118. calculate. Specifically, the electric field strength time fluctuation calculation unit 1224 calculates the amplitude of the electric field strength time fluctuation by the equation (1).

ΔE = | E (t + Δt) −E (t) | (1)
The electric field strength time variation calculation unit 1224 inputs information representing the amplitude of the time variation of the electric field strength to the position determination unit 1226.

  The baseband signal processing circuit 122 functions as the position determination unit 1226. The position determination unit 1226 determines a position where the electric field strength can be improved.

  FIG. 6 shows an example of a position where the electric field strength can be improved. In FIG. 6, “user state” represents movement or movement of the first wireless communication apparatus 100. This is because the first wireless communication device 100 is assumed to move or move with the movement of the user.

<Pattern (1)>
When it is determined that the received electric field strength continues to increase at a predetermined time for determining the position to be presented to the user and the user is moving at a substantially constant speed based on the acceleration information from the sensor 126, the position determination unit 1226 It is determined that the position for improving the electric field strength is not presented. This is because the received electric field strength is becoming stronger due to the movement of the user, and may be moved as it is. Specifically, when it is determined that the time derivative of the received electric field strength E continues to take a positive value and the user's state is moving at a substantially constant speed, the position determination unit 1226 displays the electric field on the display device 128. The position for improving the strength is not presented. Here, the substantially constant speed may be about several centimeters per second.

  When it is determined that the received electric field strength continues to increase at a predetermined time for determining the position to be presented to the user and the user is not moving based on the acceleration information from the sensor 126, the position determining unit 1226 determines the electric field strength. It is determined that the position to be improved is not presented. This is because the received electric field strength is becoming stronger even though the user is not moving, so that it can be left as it is. Since the received electric field strength is assumed to increase due to changes in the surrounding environment, the tendency is not disturbed. Specifically, the position determination unit 1226 causes the display device 128 to improve the electric field strength when it is determined that the time derivative of the received electric field strength E continues to take a positive value and the user's state is not moving. The position is not presented.

<Pattern (2)>
When it is determined that the received electric field strength continues to decrease at a predetermined time for determining the position to be presented to the user and the user is moving at a substantially constant speed based on the acceleration information from the sensor 126, the position determination unit 1226 It is determined that the position for improving the electric field strength is presented. This is because the received electric field strength is becoming weaker due to the movement of the user, and if the movement is continued as it is, the communication may be disconnected. Specifically, when the position determination unit 1226 determines that the time derivative of the received electric field strength E continues to take a negative value and the user's state is moving at a substantially constant speed, the position determination unit 1226 The position where the electric field strength is improved is presented. Here, the substantially constant speed may be about several centimeters per second.

  FIG. 7 is a diagram for explaining processing executed by the position determination unit 1226.

  The position determination unit 1226 classifies the electric field strength measured so far for each predetermined electric field strength range. The segmented electric field strength may be color-coded.

FIG. 7 (1) shows the received electric field strength (actual value) measured before the communication is disconnected and the received electric field strength (predicted value) estimated by moving from the position where the communication is disconnected. . In FIG. 7A, the horizontal axis represents time, and the vertical axis represents the received electric field. As the reception field strength measured before the communication is disconnected, the electric field strength class ₁₃₄ 1 -134 ₄ is shown. Reception field strength decreases in the order of the field strength class ₁₃₄ 1 -134 _4. Since the received electric field strength in the electric field strength class 134 ₄ is not larger than the threshold, and communication between the second wireless communication apparatus 200 _n is disconnected. Further, as the received signal strength estimated by moving the communication is disconnected position, the electric field strength class 134 ₅ -134 ₇ is shown. Reception electric field strength in the order of electric field strength class ₁₃₄ 5 -134 ₇ increases. Since the received electric field strength in the electric field strength class 134 ₅ is equal to or greater than a threshold, the communication between the second wireless communication apparatus 200 _n is assumed to be recovered.

  The state of the first wireless communication apparatus 100 is associated with the received electric field strength. For example, when the state of the first wireless communication apparatus 100 indicates that it is moving, a rectangular symbol whose longitudinal direction is the moving direction of the first wireless communication apparatus 100 is presented.

  FIG. 7B shows an example of presentation when the first wireless communication apparatus 100 is moving. It can be seen that the user can improve the received electric field strength by moving in the longitudinal direction of the rectangular symbol. In FIG. 7 (2), the moving direction assumed to improve the received electric field strength is indicated by an arrow. When it is difficult for the user to move, the position of the first wireless communication device 100 may be shifted in the longitudinal direction of the rectangular symbol. The user may shift, or another person such as a nurse may shift.

  FIG. 7 (3) shows a presentation example when the first wireless communication apparatus is moving. It can be seen that the user can improve the received electric field strength by moving in the longitudinal direction of the rectangular symbol. In FIG. 7 (3), the moving direction assumed to improve the received electric field strength is indicated by an arrow. If it is difficult for the user to move, the position of the first wireless communication device 100 may be shifted in the direction of the barcode. The user may shift, or another person such as a nurse may shift.

  When it is determined that the received electric field strength continues to decrease at a predetermined time for determining the position to be presented to the user and the user is not moving based on the acceleration information from the sensor 126, the position determination unit 1226 determines the electric field strength. It is determined that the position to be improved is presented. Despite the fact that the user is not moving, the electric field strength is becoming weaker. Since it is assumed that the received signal becomes weak due to changes in the surrounding environment, the tendency is hindered. Specifically, the position determination unit 1226 causes the display device 128 to improve the electric field strength when it is determined that the time derivative of the electric field strength E continues to take a negative value and the user's state is not moving. Present the location.

  FIG. 8 is a diagram for explaining processing executed by the position determination unit 1226.

  The position determination unit 1226 classifies the received electric field strength measured so far for each predetermined electric field strength range.

When the first wireless communication apparatus 100 is not moving, the received electric field is presented concentrically. 7 (1) referring to as been described, as measured received field strength, electric field strength class ₁₃₄ 1 -134 ₄ is obtained.

In the example shown in FIG. 8, around the current position, the electric field strength class ₁₃₄ 1 -134 ₄ are displayed concentrically. Reception field strength decreases in the order of the field strength class ₁₃₄ 1 -134 _4. Since the received electric field strength in the electric field strength class 134 ₄ is not larger than the threshold, and communication between the second wireless communication apparatus 200 _n is disconnected. User, the current position 132 by moving the first wireless communication apparatus 100 to move from the field strength class 134 _4, it is possible to restore the communication between the second wireless communication apparatus 200 _n.

<Pattern (3)>
When it is determined that the received electric field strength repeats rising and falling with a certain amplitude h or more in a predetermined time for determining the position to be presented to the user, the position determination unit 1226 improves the electric field strength. It is determined that the position is not presented. This is because it is difficult to improve the electric field strength by changing the position of the wireless communication device 100 because the electric field strength repeatedly increases and decreases greatly regardless of whether or not the user moves. The position determination unit 1226 does not present the position for improving the electric field strength on the display device 128.

<Pattern (4)>
When it is determined that the time variation of the received electric field strength is small and the absolute value thereof is small within a predetermined time for determining the position to be presented to the user, the position determination unit 1226 presents a position that improves the electric field strength. Determine to do. In this state, the state where the received electric field strength is weak continues for a long time. Specifically, when it is determined that the time variation of the time differentiation of the electric field strength E is small and the absolute value thereof is small, the position determination unit 1226 presents a position for improving the electric field strength on the display device 128. .

When the communication with the second wireless communication apparatus 200 _n is disconnected, the position determination unit 1226 classifies the received electric field strength measured so far for each predetermined range. The position determination unit 1226 preferably refers to the received electric field strength measured in the past further than <Pattern 2>. This is because it is preferable to refer to a state in which the received electric field strength is high because the state in which the received electric field strength is low continues.

  If the position determination unit 1226 determines that the first wireless communication apparatus 100 is moving, the position determination unit 1226 associates the received electric field with the movement direction. For example, as shown in FIG. 7B, a rectangular symbol whose longitudinal direction is the moving direction of the first wireless communication apparatus 100 may be presented. The display device 128 presents a rectangular symbol whose longitudinal direction is the moving direction of the first wireless communication device 100. It can be seen that the user can improve the electric field strength by moving in the longitudinal direction of the rectangle. When it is difficult for the user to move, the position of the first wireless communication apparatus 100 may be shifted in the longitudinal direction of the rectangle. The user may shift, or another person such as a nurse may shift.

When the first wireless communication apparatus 100 is not moving, the position determination unit 1226 presents the received electric field strength measured before the communication is disconnected concentrically. 7 (1) As described with reference to the as received field strength measured before the communication is disconnected, the electric field strength class 134 ₁ -134 ₄ is obtained.

Position determining unit 1226, as described with reference to FIG. 8, around the current position 132, presents a field strength division ₁₃₄ 1 -134 ₄ concentrically. User, the current position 132 by moving the first wireless communication apparatus 100 to move from the field strength class 134 _4, it is possible to restore the communication between the second wireless communication apparatus 200 _n.

<Pattern (5)>
If it is determined that the time variation of the received electric field strength is small and the absolute value is large in a predetermined time for determining the position to be presented to the user, the position determination unit 1226 presents the position for improving the electric field strength. It is determined not to be performed. Regardless of the presence or absence of the user's movement, it is determined that the communication is stable because the received electric field strength is strong and the fluctuation is small. Specifically, when it is determined that the time variation of the time differentiation of the electric field strength E is small and the absolute value thereof is large, the position determination unit 1226 presents a position for improving the electric field strength to the display device 128. Absent. Here, the substantially constant speed may be about several centimeters per second.

  The position determination unit 1226 includes information indicating acceleration from the sensor 126, amplitude ΔE of time variation of the received electric field strength from the electric field strength time variation calculation unit 1224, and dE / dt indicating whether the variation is an increasing direction or a decreasing direction. Information is input. The position determination unit 1226 determines which of the above-described <Pattern 1>-<Pattern 5> is based on the information indicating the acceleration and the information indicating the time variation dE / dt of the received electric field strength. The position determination unit 1226 determines whether to present a position where the electric field strength can be improved according to the corresponding pattern. If the position determination unit 1226 determines to present a position where the electric field strength can be improved, the position determination unit 1226 performs processing for presenting a position where the electric field strength can be improved to the display device 128.

<Operation of First Wireless Communication Device 100>
FIG. 9 shows an example of the operation of the first wireless communication apparatus 100.

  In step S802, the electric field strength measuring unit 1222 measures the received electric field strengths E (t) and E (t + Δt) in the baseband signal processing circuit 122 in the AGC 118.

  The electric field strength time fluctuation calculation unit 1224 calculates the time fluctuation of the received electric field strength according to the equation (1).

  In step S804, the position determination unit 1226 determines whether or not the temporal variation of the received electric field strength varies greatly between positive and negative. The position determination unit 1226 determines whether or not the received electric field strength varies positively or negatively over a predetermined threshold value. That is, the position determination unit 1226 determines whether or not ΔE = | E (t + Δt) −E (t) |> h.

  In step S806, the position determination unit 1226 determines that the time variation of the received electric field strength varies greatly between positive and negative, that is, ΔE = | E (t + Δt) −E (t) |> h. If judged, do nothing. That is, the position determination unit 1226 does not present a position where the electric field strength can be improved.

  In step S808, the position determination unit 1226 determines whether the time variation of the received electric field strength is less than a predetermined threshold value a when it is determined that the time variation of the received electric field strength does not vary significantly between positive and negative. .

  In step S810, if it is determined in step S808 that the time variation of the received electric field strength is not less than the predetermined threshold value a, the position determination unit 1226 does nothing. That is, the position determination unit 1226 does not present a position where the electric field strength can be improved.

  In step S812, if it is determined in step S808 that the time variation of the received electric field strength is less than the predetermined threshold a, the position determination unit 1226 determines whether the time variation of the received electric field strength is less than the predetermined threshold −a. Determine whether.

  In step S814, when it is determined in step S812 that the time variation of the received electric field strength is less than the predetermined threshold −a, the position determination unit 1226 measures the direction of movement as the user state by the sensor 126.

  In step S816, if it is determined in step S812 that the time variation of the received electric field strength is not less than the predetermined threshold −a, the position determination unit 1226 determines whether the received electric field strength E (t) is greater than the predetermined threshold b. Determine.

  In step S818, if it is determined in step S816 that the received electric field strength E (t) is greater than the predetermined threshold value b, the position determination unit 1226 does nothing. That is, the position determination unit 1226 does not present a position where the electric field strength can be improved.

  In step S820, when it is determined in step S816 that the received electric field strength E (t) is equal to or less than the predetermined threshold value b, the position determination unit 1226 refers to past acceleration data. The past acceleration data referred to in step S820 is preferably referred to the past acceleration data rather than the acceleration used when the user's moving direction is measured in step 814.

  In step S822, when the user's moving direction is measured in step S814, or when past acceleration data is referenced in step S820, the position determination unit 1226 determines whether the acceleration is greater than a predetermined threshold value X. judge.

  In step S824, when it is determined in step S822 that the acceleration is equal to or less than the predetermined threshold value X, the position determination unit 1226 draws the electric field strength concentrically on the display device 128.

  In step S826, when it is determined in step S822 that the acceleration is larger than the predetermined threshold value X, the position determination unit 1226 divides the electric field strength into colors by dividing the longitudinal direction of the rectangle into a plurality of colors. draw.

  In the flowchart shown in FIG. 9, the order of the steps may be changed. Specifically, the order of steps S804, S808, S812, and S816 may be changed as appropriate.

  According to one embodiment of the wireless communication apparatus, a position where the received electric field strength can be improved can be presented based on the time series data of the received electric field strength and the user state. For this reason, the user can take measures for improving the reception electric field strength when the reception electric field strength is reduced. By using the received electric field strength, it can be obtained directly from the received signal, so that the processing load on the wireless communication apparatus can be reduced and the processing speed can be further improved.

  In addition, when communication with the communication partner is disconnected, a position where the received electric field strength can be improved can be presented based on the time series data of the received electric field strength before the communication is disconnected. For this reason, the user can recover the communication when the communication is disconnected.

  Further, when the communication with the communication partner is disconnected, a position where the received electric field strength can be improved can be presented based on the time series data of the received electric field strength before and after the communication is disconnected. By obtaining a position where the received electric field strength can be improved based on the time series data of the received electric field strength before and after the communication is disconnected, the range of positions where the communication can be recovered can be expanded.

The following additional notes are further disclosed with respect to the embodiment including the above examples.
(Appendix 1)
A control unit that acquires the communication quality of a signal from a communication partner, and determines a position where the communication quality can be improved based on the time-series data of the communication quality and the state of the own wireless communication device;
A wireless communication device comprising: a presentation unit that presents the position determined by the control unit.
(Appendix 2)
The wireless communication device according to appendix 1, wherein when the communication with the communication partner is disconnected, the control unit determines the position based on time-series data of communication quality before the communication is disconnected. .
(Appendix 3)
The control unit estimates communication quality after the communication is disconnected when communication with the communication partner is disconnected, time-series data of communication quality before and after the communication is disconnected, and user status The wireless communication device according to attachment 1, wherein a position for recovering the communication is determined based on
(Appendix 4)
The wireless communication device according to any one of appendices 1 to 3, wherein the control unit determines the position based on an increase or decrease in communication quality or an absolute value.
(Appendix 5)
The wireless communication device according to any one of appendices 1 to 4, wherein the presenting unit presents a moving direction to the position based on the state of the user.
(Appendix 6)
Get the communication quality of the signal from the communication partner,
Based on the time series data of the communication quality and the state of the user, determine a position where the communication quality can be improved,
A control method for presenting the position.
(Appendix 7)
A baseband processing apparatus comprising: a control unit that acquires communication quality of an input signal and determines a position where communication quality can be improved based on time-series data of the communication quality and a user's state.

10 Patient 100 First wireless communication device 102 RFIC
DESCRIPTION OF SYMBOLS 104 Antenna 106 Bandpass filter 108 Amplifier 110 Bandpass filter 112 Mixer 114 Local oscillator 116 Baseband processing apparatus 118 AGC
120 A / D converter 122 Baseband signal processing circuit 124 Storage device 126 Sensor 128 Display device

Claims (2)

A sensor for detecting the state of movement of the wireless communication device;
Control for acquiring communication quality of a signal received from a communication partner, and determining a position where communication quality can be improved based on time series data of the communication quality and a movement state of the own wireless communication device detected by the sensor And
Possess a presentation unit for presenting the position that can improve the communication quality judged by the control unit,
The control unit
When it is determined that the communication quality continues to improve in a predetermined time from the time series data of the communication quality and the state of movement is moving at a substantially constant speed, the presenting unit presents a position where the communication quality can be improved Do not
When it is determined that the communication quality continues to deteriorate in a predetermined time from the time series data of the communication quality and the state of movement is moving at a substantially constant speed, the presenting unit presents a position where the communication quality can be improved And
When it is determined that the communication quality is repeatedly improved and decreased in a predetermined time from the time series data of the communication quality, without presenting the position that can improve the communication quality to the presentation unit,
When it is determined that the communication quality is small in a predetermined time from the time series data of the communication quality and the communication quality is low, a position where the communication quality can be improved is presented to the presenting unit,
Wireless communication that does not present a position that can improve the communication quality to the presenting unit when it is determined that communication quality fluctuation is small and communication quality is high in a predetermined time from the time series data of the communication quality apparatus. The state of movement of the own wireless communication device is detected by a sensor,
Obtaining the communication quality of the signal received from the communication partner, determining the position where the communication quality can be improved based on the time-series data of the communication quality and the movement state of the own wireless communication device detected by the sensor ,
When it is determined that the communication quality continues to improve in a predetermined time from the time series data of the communication quality and the state of the movement is moving at a substantially constant speed, the presentation unit presents a position where the communication quality can be improved. Not
When it is determined that the communication quality continues to deteriorate in a predetermined time from the time series data of the communication quality and the state of movement is moving at a substantially constant speed, the presenting unit presents a position where the communication quality can be improved And
When it is determined that the communication quality is repeatedly improved and decreased in a predetermined time from the time series data of the communication quality, without presenting the position that can improve the communication quality to the presentation unit,
When it is determined that the communication quality is small in a predetermined time from the time series data of the communication quality and the communication quality is low, a position where the communication quality can be improved is presented to the presenting unit,
Wireless communication that does not present a position that can improve the communication quality to the presenting unit when it is determined that communication quality fluctuation is small and communication quality is high in a predetermined time from the time series data of the communication quality Control method of the device .

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