WO2014080772A1 - Portable communications device and program - Google Patents

Abstract

This portable communication device (1) comprises: a display unit (20) which displays correlation data which denotes a correlation between at least two types of data; a sensing unit (11) which senses an inclining of the present device; a prediction unit (12) which, on the basis of the inclining which is sensed by the sensing unit (11), predicts a display range of the correlation data which is to be displayed in the display unit (20) after a prescribed time; a receiving unit (14) which, on the basis of the display range which is predicted by the prediction unit (12), receives the correlation data from an external device (5) which is connected via a network; a storage unit (15) which stores correlation data which is received by the receiving unit (14); and a display control unit (16) which reads out the correlation data which is stored in the storage unit (15), and, on the basis of the inclining which is sensed by the sensing unit (11), controls such that the display range of the correlation data which is displayed in the display unit (20) is changed.

Description

Mobile communication device and program

The present invention relates to a technique for controlling contents displayed on a mobile communication device.

There is a technique for displaying trend data (for example, data indicating a measurement result by an external measuring device) in a mobile communication device. In this technique, a mobile communication device acquires trend data from a device storing trend data via a communication line, and displays the trend data on the screen of the mobile communication device. Since the screen size of the mobile communication device is limited, the trend data display method has been improved (for example, Patent Document 1).

JP 2006-91695 A

When the screen size is small as in a mobile communication device, the range in which trend data is displayed becomes narrow, so it is desirable that trend data in the range that the operator wants to display can be displayed on the screen without stress.

An object of the present invention is to improve operability when changing a display range of data displayed on a screen in a mobile communication device.

According to an embodiment of the present invention, the display unit displays correlation data indicating the correlation between at least two types of data, the detection unit detects the tilt of the own device, and the tilt detected by the detection unit. A prediction unit that predicts a display range of the correlation data to be displayed after a predetermined time on the display unit, and the correlation from an external device connected via a network based on the display range predicted by the prediction unit. A receiving unit that receives data; a storage unit that stores the correlation data received by the receiving unit; and the correlation data stored in the storage unit is read out and based on the inclination detected by the detection unit And a display control unit that controls to change a display range of the correlation data displayed on the display unit. Apparatus is provided.

Moreover, in another preferable aspect, it further has an operation part which receives a user's operation, and the said display control part is to the said operation part when changing the display range of the said correlation data displayed on the said display part. Control may be performed so as to change the behavior of the change in the display range according to the accepted operation.

In another preferred embodiment, the control for changing the behavior of the change in the display range by the display control unit may be control for stopping the change in the display range.

Moreover, in another preferable aspect, the receiving unit receives the correlation data by thinning out, and when the display range predicted by the prediction unit satisfies a predetermined condition, the receiving unit predicts the display range. You may receive other than the said correlation data memorize | stored in the said memory | storage part among correlation data.

In another preferred embodiment, the detection unit further detects the acceleration of the device itself, and the correlation data to be displayed on the display unit after a predetermined time based on the tilt and acceleration detected by the detection unit. The display range may be predicted.

According to an embodiment of the present invention, the display unit displays correlation data indicating a correlation between at least two types of data on the computer based on the tilt detected by the detection unit that detects the tilt of the device itself. Predicting a display range of the correlation data to be displayed after a predetermined time in step, receiving the correlation data from an external device connected via a network based on the predicted display range, and Storing the correlation data in a storage unit; reading the correlation data stored in the storage unit; and displaying the correlation data displayed on the display unit based on the inclination detected by the detection unit And a step of controlling the display range to be changed.

According to the present invention, it is possible to improve the operability when changing the display range of the data displayed on the screen in the mobile communication device.

It is a figure explaining the structure of the communication system 1000 which concerns on 1st Embodiment of this invention. It is a figure explaining the outline | summary of the external appearance and operation | movement of the mobile communication apparatus 1 which concerns on 1st Embodiment of this invention. It is a figure explaining the trend data which concerns on 1st Embodiment of this invention. It is a functional block diagram explaining the structure of the mobile communication apparatus 1 which concerns on 1st Embodiment of this invention. It is a figure explaining the relationship between the movement coefficient (alpha) which concerns on 1st Embodiment of this invention, and rotation angle RT.

Hereinafter, a mobile communication device according to an embodiment of the present invention will be described in detail with reference to the drawings. In addition, embodiment shown below is an example of embodiment of this invention, and this invention is not limited to these embodiment.

<First Embodiment>
A mobile communication device according to an embodiment of the present invention will be described in detail with reference to the drawings.

[Configuration of Communication System 1000]
FIG. 1 is a diagram illustrating the configuration of a communication system 1000 according to the first embodiment of the present invention. The communication system 1000 includes a mobile communication device 1, a server 5, and a measuring device 7. The mobile communication device 1 and the server 5 are connected via a network NW such as a communication line. The server 5 and the measuring device 7 are also connected via the network NW. The server 5 stores trend data indicating a time change of a predetermined characteristic value measured by the measuring instrument 7. This trend data is received by the server 5 from the measuring instrument 7 via the network NW.

The portable communication device 1 is assumed to be a smartphone in this example, but may be any communication device that can be connected to the network NW and can be carried around and tilted. The mobile communication device 1 has a function of receiving and displaying trend data stored in the server 5 via the network NW.

FIG. 2 is a diagram for explaining the outline of the appearance and operation of the mobile communication device 1 according to the first embodiment of the present invention. The mobile communication device 1 has a display unit 20 provided on one surface side of the housing 10. The display content of the display unit 20 is controlled by the CPU.

An operation unit 30 is provided on the surface side of the display unit 20. The operation unit 30 is, for example, a touch sensor, and outputs a signal indicating an operation accepted by the operator to a CPU (not shown). The operation unit 30 may be an operation key or the like instead of the touch panel.

The trend data TD is displayed on the display unit 20. Trend data DA in a predetermined time range is displayed on the data display area DA. For example, as shown in FIG. 2A, the data display area DA is displayed in a scroll shape. However, the data display area DA may have any shape as long as it defines an area for displaying the trend data TD. Good. In addition, by displaying the scroll shape or the like, in the operation when changing the time range of the trend data TD, which will be described later, the operation feeling and the feeling of change of the time range are easily matched, and the operability by the operator is improved. And visibility is improved.

FIG. 2B is a diagram of the mobile communication device 1 viewed in the direction of arrow B shown in FIG. Also, “R” and “L” in FIG. 2A represent the position of the mobile communication device 1 when viewed from the front side of the display unit 20 as “right” and “left” for convenience. Is. In the following description, “right” and “left” of the mobile communication device 1 indicate directions corresponding to “R” and “L” shown in FIG.

As shown in FIG. 2 (b), when the operator tilts the mobile communication device 1 horizontally so as to lower the right side, the trend data TD is displayed in the direction of the arrow F shown in FIG. 2 (a). Move. That is, the time range of the displayed trend data TD changes toward the past. On the other hand, when the operator tilts the left side of the mobile communication device 1 downward, the time range of the trend data TD displayed changes toward the future. These changing speeds change according to the amount of tilt.

Trend data is data obtained by the measuring instrument 7 as described above, and is stored in the server 5.

FIG. 3 is a diagram for explaining trend data according to the first embodiment of the present invention. As illustrated in FIG. 3, the trend data is stored in the server 5 as data indicating the correlation between the measurement time “time” and the characteristic value “value”. For example, the characteristic value measured at “October 18, 2012 19:16” is “35.1”.

[Configuration of portable communication device 1]
FIG. 4 is a functional block diagram illustrating the configuration of the mobile communication device 1 according to the first embodiment of the present invention. The mobile communication device 1 includes a detection unit 11, a prediction unit 12, a request unit 13, a reception unit 14, a storage unit 15, a display control unit 16, a display unit 20, and an operation unit 30. The mobile communication device 1 realizes each of these functions when the CPU executes a program installed by being acquired from an external device. Some functions may be realized by hardware.

The detection unit 11 detects the tilt of the mobile communication device 1 using a gyro sensor or an acceleration sensor.

The prediction unit 12 acquires the inclination detected by the detection unit 11, and predicts the time range of the trend data TD to be displayed on the display unit 20 after a predetermined time based on the acquired inclination. For example, in the example illustrated in FIG. 3, assuming that the time range currently displayed on the display unit 20 is the current range PA, the prediction unit 12 determines that after a predetermined time (for example, Δt = 0.5 seconds) based on the inclination. The displayed time range is predicted as the predicted range EA. In the example of FIG. 3, the prediction range EA when the right side of the mobile communication device 1 is lowered as shown in FIG. 2 is shown. In addition, since the prediction part 12 should just be able to predict a time range, if the time range of the trend data which can be displayed on the display part 20 at once is decided, you may make it predict the center time of the prediction range EA, for example. .

For example, the prediction unit 12 predicts the prediction range EA as shown in the following equation.
Tea = Tpa + α × Δt
Here, Tea is the center time of the prediction range EA, Tpa is the center time of the current range PA, and the movement coefficient α is the inclination of the mobile communication device 1 (in the case where the mobile communication device 1 is rotated in the direction of lowering the left side from the horizontal state) The value Δt corresponding to the rotation angle RT) corresponds to the predetermined time described above.

FIG. 5 is a diagram for explaining the relationship between the movement coefficient α and the rotation angle RT according to the first embodiment of the present invention. In this example, the movement coefficient α is large when the rotation angle RT is 0 ° to PR (for example, 45 °), the rotation angle RT is the maximum value PL at PR, and is small when the rotation angle RT is PR to 90 °. , Asymptotically approaching a predetermined value. When the right side of the mobile communication device 1 is lowered, that is, when the rotation angle RT is negatively from 0 ° to −90 ° (from 360 ° to 270 °), the relationship in which the sign of the movement coefficient α shown in FIG. It is in. For the remaining 90 ° to 270 °, for example, the movement coefficient α at 90 ° may be maintained, or the absolute value of the movement coefficient α may be minimized at 180 °. .

Note that the relationship between the rotation angle RT and the movement coefficient α is an example. For example, the absolute value of the movement coefficient α may be increased as the inclination of the mobile communication device 1 increases. However, as described above, the operability by the operator is further improved by maximizing the absolute value of the movement coefficient α at the rotation angle RA of less than ± 90 °.

Further, the movement coefficient α may not be changed according to the rotation angle RT, but may be changed according to the change speed or change acceleration of the inclination when the mobile communication device 1 is inclined. Further, the movement coefficient α may be changed according to two or more kinds of the rotation angle RT, the change rate of the inclination, and the change acceleration.

Referring back to FIG. The request unit 13 transmits a request for trend data to the server 5 based on the result predicted by the prediction unit 12 (prediction range EA). In the example illustrated in FIG. 3, the request unit 13 requests trend data of the reading range RA between the current range PA and the predicted range EA.

At this time, the request unit 13 determines the data amount of the trend data in the reading range RA and the communication speed with the server 5 so that reception of at least a part of the trend data in the prediction range EA is completed after the predetermined time described above. In response to the request, it requests that the trend data be sent out. The trend data to be transmitted may be thinned out evenly, or the amount of thinning may be reduced as the trend data is closer to the prediction range EA.

This communication speed may be determined according to the communication standard in the communication path between the server 5 and the portable communication device 1, or the result obtained by measuring the communication speed in this communication path may be used. Good. When determining according to the communication standard, 1/10 of the theoretical communication speed may be handled as the communication speed in consideration of the margin. When the condition that the communication speed is ensured with respect to the data amount of the reading range RA determined from the prediction range EA to the extent that the trend data need not be thinned out and transmitted, the request unit 13 The server 5 is requested to transmit data without thinning out.

The server 5 transmits the trend data to the mobile communication device 1 in response to a request from the request unit 13. When transmission of the trend data that has been thinned is completed, the server 5 is in a requested time range after the completion of transmission of the thinned trend data until it is requested to send trend data the next time. The remaining trend data (thinned untransmitted trend data) may be transmitted.

The server 5 records a trend data transmission log, and the trend data already transmitted within a predetermined time is received by the receiving unit 14 and stored in the storage unit 15 as will be described later. As described above, the transmission may not be performed regardless of the request from the request unit 13. For example, when the prediction range EA predicted by the prediction unit 12 after the next predetermined time is included in the read range RA by approaching the current range PA, most of the trend data is already stored in the storage unit 15. Is buffered. Therefore, the server 5 does not retransmit the transmitted trend data among the trend data included in the read range RA, but transmits trend data (such as thinned trend data) that has not been transmitted yet.

Note that the recording of the transmission log is not limited to being performed by the server 5, but may be performed by the mobile communication device 1. In this case, the request unit 13 may request trend data to be received from the server 5 based on the transmission log.

The receiving unit 14 receives the trend data transmitted from the server 5 and stores (buffers) it in the storage unit 15. The storage unit 15 stores trend data in a FIFO (First-In-First-Out) method.

The display control unit 16 acquires the inclination detected by the detection unit 11, and determines the time range of the trend data displayed on the display unit 20 based on the acquired inclination. The time range determined by the display control unit 15 corresponds to the time range predicted by the prediction unit 12. That is, the display control unit 16 controls the prediction range EA predicted by the prediction unit 12 to be displayed on the display unit 20 after a predetermined time (Δt = 0.5 seconds in the above example).

The display control unit 16 reads out the trend data in the determined time range from the trend data stored in the storage unit 15 and displays it on the display unit 20. When the trend data stored in the storage unit 15 is not all data in the determined time range, the trend data displayed on the display unit 20 is also thinned out. On the other hand, when the trend data of the thinned portion is sequentially received by the receiving unit 14 and stored in the storage unit 15, the display control unit 16 displays the trend data of the thinned portion on the display unit 20. .

In this way, the display control unit 16 controls to change the time range of the trend data displayed on the display unit 20 based on the inclination detected by the detection unit 11.

When the operation from the operator (for example, an operation of touching the data display area DA shown in FIG. 2) is received by the operation unit 30, the display control unit 16 displays the display unit 20 on the display unit 20. Even when the time range of the displayed trend data is being changed, the change may be stopped. In this case, the prediction unit 12 performs processing so as to predict the same range as the current range PA as the prediction range EA. As a result, the trend data that has been thinned out of the trend data in the range is received from the server 5 and stored in the storage unit 15. Then, the display control unit 16 changes the trend data displayed on the display unit 20 from a thinned display to a non-thinned display.

In this case, when the operation unit 30 receives a predetermined operation from the operator, the display control unit 16 changes the time range of the trend data displayed on the display unit 20 by the original display control, that is, the inclination of the mobile communication device 1. Control.

Thus, in the mobile communication device 1 according to the first embodiment of the present invention, when changing the time range of the trend data displayed on the screen, the operator can change the mobile communication device according to the direction to be changed. Just tilt 1. At this time, the time range displayed after a predetermined time is predicted and the trend data is received from the server 5, and when the trend data to be received is larger than the communication speed, the data is thinned out and received. For this reason, even when the time range of the trend data displayed on the screen is changed, it is possible to realize a change in display that follows the operation of tilting by the operator by suppressing the delay of the change. Thereby, the operativity of the portable communication apparatus 1 by an operator improves.

Second Embodiment
In the first embodiment described above, the trend data to be displayed has changed according to the inclination of the mobile communication device 1, but in the second embodiment, acceleration such as shaking the mobile communication device 1 is further applied. Thus, the configuration is changed in a different manner.

In this case, the detection unit 11 detects not only the inclination of the mobile communication device 1 but also the acceleration. The prediction unit 12 predicts the prediction range EA based on the inclination and acceleration detected by the detection unit 11. For example, the prediction unit 12 predicts the prediction range EA as shown in the following equation.
Tea = Tpa + (α + β) × Δt
Here, the movement coefficient β is a value corresponding to the acceleration of the mobile communication device 1 (acceleration in which the direction toward the right side of the mobile communication device 1 is positive). Specifically, the absolute value of the movement coefficient β becomes larger as the maximum value of the absolute value of acceleration from the time when the prediction unit 12 predicts the previous time to the current time prediction is larger. Here, if the acceleration is a positive value, the movement coefficient β is also a positive value, and if the acceleration is a negative value, the movement coefficient β is also a negative value.

In this way, the operator can change the time range of the trend data displayed on the display unit 20 by tilting or shaking the mobile communication device 1. Also, for example, by setting the change range of the magnitude of the movement coefficient β to be, for example, an order of magnitude larger or smaller than the change range of the magnitude of the movement coefficient α, it is possible to perform either tilting or shaking motion. The change of the time range of the trend data can be finely adjusted.

<Modification>
As mentioned above, although embodiment and the Example of this invention were described, this invention can be implemented in various aspects as follows.

[Modification 1]
In the above-described embodiment, trend data indicating a change over time of a predetermined characteristic value is displayed on the display unit 20. For this reason, in the above-described embodiment, time data is assigned to the horizontal axis and characteristic value data is assigned to the vertical axis, but other data may be assigned. For example, data in which the horizontal axis is different from the vertical axis may be allocated. That is, the data stored in the server 5 and received and displayed in the mobile communication device 1 may be correlation data indicating the correlation between at least two types of data. In this way, correlation data indicating the relationship between two types of data that can be assigned to at least two axes such as the vertical axis and the horizontal axis may be used. In this case, the display range of the correlation data is changed by an operation such as tilting the mobile communication device 1. The trend data is an aspect of the correlation data.

In the embodiment described above, the display range of the data in the horizontal axis direction is changed by tilting the mobile communication device 1, but the display range of the data in the vertical axis direction is changed depending on the tilting direction. It may be. For example, when the mobile communication device 1 is tilted to the left or right, the data display range in the horizontal axis direction changes, and when tilted to the back side or the near side (when rotated about the left and right direction as an axis) The display range of the data in the axial direction may be changed. Such an operation mode is effective when data is displayed like a scatter diagram.

[Modification 2]
In the embodiment described above, the trend data is stored in the server 5, but may be stored in the measuring device 7. In this case, the mobile communication device 1 may receive trend data from the measuring instrument 7.

[Modification 3]
The relationship between the direction in which the mobile communication device 1 is tilted in the above-described embodiment and the direction in which the time range of the displayed trend data changes may be reversed. For example, in the embodiment, when the right side of the mobile communication device 1 is lowered, the time range of the displayed trend data is changed so as to change in the past, but it may be operated so as to change in the future.

[Modification 4]
In the above-described embodiment, the magnitude of the tilt when the mobile communication device 1 is tilted is determined based on the case where the display surface of the mobile communication device 1 is horizontal. May be used as a reference. In this case, for example, when the mobile communication device 1 receives a predetermined operation by the operator, the magnitude of the inclination may be determined based on the state at that time.

[Modification 5]
In the embodiment described above, the change is stopped by an operation by the operator (for example, touching the data display area DA) while the time range of the trend data displayed on the display unit 20 is being changed. However, the present invention is not limited to the case of stopping, and it is sufficient that the behavior of change is different. For example, the change speed of the time range may be reduced while being touched by the operator, or may be gradually decelerated and stopped when the touch time is long.

Also, the time range to be displayed may be forcibly changed according to the slide direction by performing an operation of sliding while the operator touches.

DESCRIPTION OF SYMBOLS 1 ... Portable communication apparatus, 5 ... Server, 7 ... Measuring instrument, 10 ... Housing, 11 ... Detection part, 12 ... Prediction part, 13 ... Request part, 14 ... Reception part, 15 ... Storage part, 16 ... Display control part 20 ... display unit, 30 ... touch panel, 1000 ... communication system

Claims (6)

1. A display unit for displaying correlation data indicating a correlation between at least two types of data;
   A detection unit for detecting the tilt of the own device;
   A prediction unit that predicts a display range of the correlation data to be displayed after a predetermined time in the display unit, based on the inclination detected by the detection unit;
   Based on the display range predicted by the prediction unit, a reception unit that receives the correlation data from an external device connected via a network;
   A storage unit for storing the correlation data received by the reception unit;
   A display control unit that reads the correlation data stored in the storage unit and controls to change a display range of the correlation data displayed on the display unit based on the inclination detected by the detection unit A portable communication device comprising:
2. It further has an operation unit that receives user operations,
   The display control unit varies the behavior of the change of the display range according to the operation received by the operation unit when the display range of the correlation data displayed on the display unit is changed. The mobile communication device according to claim 1, wherein the mobile communication device is controlled.
3. The mobile communication device according to claim 2, wherein the control for changing the behavior of the change in the display range by the display control unit is a control for stopping the change in the display range.
4. The reception unit receives the correlation data by thinning out, and if the display range predicted by the prediction unit satisfies a predetermined condition, the reception unit stores the correlation data in the predicted display range in the storage unit. The mobile communication device according to claim 1, wherein the mobile communication device receives data other than the stored correlation data.
5. The detection unit further detects the acceleration of the own device,
   The mobile communication device according to claim 1, wherein a display range of the correlation data to be displayed on the display unit after a predetermined time is predicted based on the tilt and acceleration detected by the detection unit.
6. On the computer,
   Based on the inclination detected by the detection unit that detects the inclination of the device itself, a display range of the correlation data to be displayed after a predetermined time on a display unit that displays correlation data indicating a correlation between at least two types of data. Predicting steps,
   Receiving the correlation data from an external device connected via a network based on the predicted display range;
   Storing the received correlation data in a storage unit;
   Reading the correlation data stored in the storage unit and controlling to change a display range of the correlation data displayed on the display unit based on the inclination detected by the detection unit; A program to be executed.

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