CN113729622B

CN113729622B - Biological index measuring method, apparatus, measuring device and storage medium

Info

Publication number: CN113729622B
Application number: CN202010477699.6A
Authority: CN
Inventors: 何彪胜
Original assignee: Chipsea Technologies Shenzhen Co Ltd
Current assignee: Chipsea Technologies Shenzhen Co Ltd
Priority date: 2020-05-29
Filing date: 2020-05-29
Publication date: 2024-06-18
Anticipated expiration: 2040-05-29
Also published as: CN113729622A

Abstract

The application relates to a biological index measuring method, which comprises the following steps: acquiring first measurement capability information comprising a first biological indicator measurable by a first measurement device, and receiving second measurement capability information comprising a second biological indicator measurable by a second measurement device; determining first indication information and second indication information according to the first measurement capability information and the second measurement capability information; the first indication information indicates a first corresponding relation between the first measuring equipment and the first measuring index, and the second indication information indicates a second corresponding relation between the second measuring equipment and the second measuring index; the first measurement index comprises at least a part of biological indexes in the first biological indexes, and the second measurement index comprises at least a part of biological indexes in the second biological indexes; transmitting the second indication information to the second measurement device, so that the second measurement device measures a second measurement index; and measuring the first measurement index according to the first indication information. The method can improve the measurement efficiency.

Description

Biological index measuring method, apparatus, measuring device and storage medium

Technical Field

The present application relates to the field of computer technology, and in particular, to a method, an apparatus, a device for measuring a biological index, and a computer readable storage medium.

Background

With the development of computer technology, more and more devices for detecting biological indexes of biological objects, such as wearable bracelets or watches, body scales, body composition analyzers, etc., are presented. The biological indicators often detected by different devices are different, and the detection effect and efficiency are different.

Traditional biological index measurement modes are usually that different measurement devices measure respective corresponding biological indexes. If a plurality of measuring devices participate in the measurement of the target biological object at the same time, the biological index of the measurement is often repeated, and the problem of low measuring efficiency exists.

Disclosure of Invention

Based on this, there is a need for a method, an apparatus, a measuring device, and a computer-readable storage medium for measuring a target biological object, which are technical problems of low measurement efficiency in performing biological index measurement.

A method of measuring a biological indicator for use with a first measurement device, the method comprising:

acquiring first measurement capability information of the first measurement device, wherein the first measurement capability information comprises a first biological index which can be measured by the first measurement device;

Establishing connection with a second measuring device, and receiving second measurement capability information sent by the second measuring device, wherein the second measurement capability information comprises a second biological index measurable by the second measuring device;

Determining a joint measurement strategy according to the first measurement capability information and the second measurement capability information; the joint measurement strategy comprises first indication information and second indication information; the first indication information is used for indicating a first corresponding relation between the first measuring equipment and a first measuring index, and the second indication information is used for indicating a second corresponding relation between the second measuring equipment and a second measuring index; the first measurement indicator includes at least a portion of the first biological indicators, and the second measurement indicator includes at least a portion of the second biological indicators;

Transmitting the combined measurement strategy to the second measurement equipment, so that the second measurement equipment measures the second measurement index of the target biological object according to the second indication information;

and measuring the first measurement index of the target biological object according to the first indication information.

A biological indicator measuring apparatus for use with a first measuring device, the apparatus comprising:

The acquisition module is used for acquiring first measurement capability information of the first measurement equipment, wherein the first measurement capability information comprises a first biological index which can be measured by the first measurement equipment;

The receiving module is used for establishing connection with second measuring equipment and receiving second measuring capability information sent by the second measuring equipment, wherein the second measuring capability information comprises a second biological index which can be measured by the second measuring equipment;

The determining module is used for determining a combined measurement strategy according to the first measurement capability information and the second measurement capability information; the joint measurement strategy comprises first indication information and second indication information; the first indication information is used for indicating a first corresponding relation between the first measuring equipment and a first measuring index, and the second indication information is used for indicating a second corresponding relation between the second measuring equipment and a second measuring index; the first measurement indicator includes at least a portion of the first biological indicators, and the second measurement indicator includes at least a portion of the second biological indicators;

The sending module is used for sending the combined measurement strategy to the second measurement equipment so that the second measurement equipment measures the second measurement index of the target biological object according to the second indication information;

And the measurement module is used for measuring the first measurement index of the target biological object according to the first indication information.

A measurement device comprising a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to perform the steps of:

acquiring first measurement capability information of a first measurement device, wherein the first measurement capability information comprises a first biological index which can be measured by the first measurement device;

A computer readable storage medium storing a computer program, wherein the computer program when executed by a processor performs the steps of:

The biological index measuring method, the biological index measuring device, the biological index measuring equipment and the computer readable storage medium are used for preparing a combined measuring strategy for carrying out combined measurement on the target biological object according to the first measuring capability information of the first measuring equipment and the second measuring capability information of the second measuring equipment. Wherein the first measurement capability information includes a first biological indicator measurable by a first measurement device; the second measurement capability information includes a second biological indicator measurable by a second measurement device. The joint measurement policy determined based on the first measurement capability information and the second measurement capability information includes first indication information for indicating a first correspondence between the first measurement device and the first measurement index and second indication information for indicating a second correspondence between the second measurement device and the second measurement index. Wherein the first measurement indicator comprises at least a portion of the first biological indicators and the second measurement indicator comprises at least a portion of the second biological indicators. The first measurement device may send the joint measurement policy to the second measurement device, such that the first measurement device and the second measurement device may measure the target biological object according to the optimal joint measurement policy, respectively, according to the first indication information and the second indication information. Therefore, the first measuring equipment and the second measuring equipment are combined, the target biological object is measured by adopting a combined measuring strategy to divide tasks, repeated measurement can be avoided, and the measuring efficiency of biological indexes is greatly improved.

Drawings

FIG. 1 is a diagram of an application environment of a method for measuring biological indicators in one embodiment;

FIG. 2 is a flow chart of a method for measuring biological indicators according to an embodiment;

fig. 3 is a schematic diagram of the result of measurement performed by different measurement devices in the conventional scheme;

FIG. 4 is a schematic diagram of the result of performing a combined measurement by combining a first measurement device and a second measurement device according to the method for measuring a biological indicator according to an embodiment of the present application;

FIG. 5 is a block diagram of a biological indicator measuring device according to one embodiment;

fig. 6 is an internal structural view of the first measuring apparatus in one embodiment.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

The biological index measuring method provided by the application can be applied to an application environment shown in figure 1. Wherein the first measurement device 102 communicates with the second measurement device 104 via a network. The first measurement device 102 obtains first measurement capability information of the first measurement device, the first measurement capability information comprising a first biological indicator measurable by the first measurement device. The first measurement device 102 establishes a connection with the second measurement device 104 and receives second measurement capability information sent by the second measurement device 104, the second measurement capability information including a second biological indicator measurable by the second measurement device. The first measurement device 102 determines a joint measurement strategy based on the first measurement capability information and the second measurement capability information; the joint measurement strategy comprises first indication information and second indication information; the first indication information is used for indicating a first corresponding relation between the first measuring equipment and the first measuring index, and the second indication information is used for indicating a second corresponding relation between the second measuring equipment and the second measuring index; the first measurement indicator includes at least a portion of the first biological indicators, and the second measurement indicator includes at least a portion of the second biological indicators. The first measurement device 102 sends the joint measurement policy to the second measurement device 104 such that the second measurement device 104 measures a second measurement indicator of the target biological object in accordance with the second indication information. The first measurement device 102 measures a first measurement index of the target biological object according to the first indication information.

The first measuring device and the second measuring device are different measuring devices, and can be matched for carrying out joint measurement on the target biological object. The first and second measurement devices may be, but are not limited to, various human health measurement devices, smartphones, portable wearable devices, etc. Among them, human health measuring devices such as a weight scale, a body fat scale, or a human body composition analyzer, etc. Portable wearable devices such as watches, hand rings or helmets, etc.

In one embodiment, as shown in fig. 2, a method for measuring a biological index is provided, which is described by taking an example that the method is applied to the first measuring apparatus 102 in fig. 1, and the method for measuring a biological index includes the steps of:

step S202, acquiring first measurement capability information of a first measurement device, where the first measurement capability information includes a first biological indicator measurable by the first measurement device.

The first measurement capability information is used for describing the measurement capability of the first measurement device, and specifically may be a first biological indicator that the first measurement device can measure, where the first measurement capability information may further include measurement accuracy and measurement time for the first measurement device to measure the first biological indicator. The biological index is a physiological index corresponding to a target biological object, such as a physiological index of height, weight, impedance, heart rate variability, or electrocardiogram. The target biological object may in particular be a human or animal to be subjected to a biological indicator measurement. Specifically, when the first measurement device determines the first measurement capability information of the first measurement device, the first biological index measurable by the first measurement device in the first measurement capability information may be obtained, and information such as measurement precision, measurement time and the like of the first measurement device on each first biological index may also be obtained.

Step S204, a connection is established with the second measuring device, and second measuring capability information sent by the second measuring device is received, wherein the second measuring capability information comprises a second biological index measurable by the second measuring device.

The second measurement capability information is used for describing the measurement capability of the second measurement device, and may specifically be a second biological indicator that can be measured by the second measurement device. Optionally, the second measurement capability information may further include measurement accuracy, measurement time, and the like of the second measurement device for measuring the second biological indicator. It is understood that the first biological indicator and the second biological indicator are respectively at least one biological indicator set, and one or more same biological indicators may be included in the two sets, or the same biological indicators may not be included in the two sets.

Specifically, the first measurement device may establish a connection with the second measurement device, and further receive, through the connection, the second measurement capability information sent by the second measurement device.

In one embodiment, the first measuring device may be connected to the second measuring device through a wired network or a wireless network, or may establish a bluetooth connection, or may establish a connection through a physical interface, such as a USB (Universal Serial Bus ) interface, an RS485 interface, or the like, which is not limited in the embodiment of the present application.

In one embodiment, the first measurement device may send a connection request to the second electronic device, the second measurement device feeding back a connection response to the first measurement device in response to the connection request, the first measurement device establishing a connection with the second measurement device based on the connection response. For example, the first measurement device may send a connection request for making a bluetooth connection to the second measurement device, and the second measurement device may immediately send a connection response when it monitors the connection request. The first measurement device handshakes with the second measurement device after receiving the connection response and negotiates data transmission parameters to establish a bluetooth connection with the second measurement device. It will be appreciated that in the process of establishing a connection, the second measurement device may also send a connection request to the first measurement device, where the first measurement device responds to implement the connection, which is not limited by the embodiment of the present application.

In one embodiment, the second measurement device may actively send the second measurement capability information to the first measurement device after establishing a connection with the first measurement device. In another embodiment, the first measurement device may trigger a capability acquisition request according to a specific operation of the user and transmit the capability acquisition request to the second measurement device, and the second measurement device transmits second measurement capability information of the second measurement device to the first measurement device after receiving the capability acquisition request.

Step S206, determining a combined measurement strategy according to the first measurement capability information and the second measurement capability information.

Specifically, the first measurement device may formulate a joint measurement policy for performing joint measurement by the first measurement device and the second measurement device according to the first measurement capability information and the second measurement capability information. The combined measurement strategy comprises first indication information and second indication information, the first indication information is used for indicating a first corresponding relation between first measurement equipment and first measurement indexes, and the first measurement indexes comprise at least one part of biological indexes in the first biological indexes. The second indication information is used for indicating a second corresponding relation between the second measuring equipment and a second measuring index, and the second measuring index comprises at least one part of biological indexes in the second biological indexes. In other words, the first indication information is used for indicating the first measurement device to screen out a first measurement index to be measured from the first biological indexes; the second indication information is used for indicating the second measuring equipment to screen out a second measuring index to be measured from the second biological index.

In one embodiment, the first indication information is used to indicate a first correspondence between the first measurement device and the first measurement indicator, the first correspondence representing that the measurement party of the first measurement indicator is the first measurement device. The second indication information is used for indicating a second corresponding relation between the second measurement equipment and the second measurement index, and the second corresponding relation indicates that the measurement party of the second measurement index is the second measurement equipment.

By way of example, the rules for formulating this joint measurement strategy may include:

When the first measuring device and the second measuring device have the same biological index, and the two measuring devices can obtain more accurate measuring results, the same biological index is used as the first measuring index corresponding to the first measuring device and the second measuring index corresponding to the second measuring device. That is, the same biological index has a first corresponding relation with the first measuring device and a second corresponding relation with the second measuring device.

When the first measuring device and the second measuring device have the same biological index and the two measuring devices can not obtain more accurate measuring results, the same biological index is used as the measuring index of the side with higher measuring precision or shorter measuring time.

If some of the first biological indicators can only be measured by the first measuring device, using the first biological indicators as the first measuring indicators of the first measuring device; if some of the second biological indicators can only be measured by the second measuring device, these second biological indicators are taken as second measurement indicators of the second measuring device.

For example, in order to combine a human health measurement device (body scale, body composition analyzer, etc.) with a wearable device (bracelet/watch) or a mobile device (smart phone), etc., to achieve a more efficient measurement, one of the human health measurement device and the wearable device may be set as a first measurement device, also referred to as a master device, and the other as a second measurement device, also referred to as a slave device.

And after the master device and the slave device are successfully connected and can perform communication interaction, the slave device sends the second measurement capability information to the master device. After receiving the second measurement capability information sent by the slave device, the master device compares the second measurement capability information with the first measurement capability information of the master device, and an optimal combined measurement path is made, namely a combined measurement strategy is made, so that the master device can inform the slave device to measure according to the optimal combined path.

Step S208, the combined measurement strategy is sent to the second measurement device, so that the second measurement device measures a second measurement index of the target biological object according to the second indication information.

Specifically, the first measurement device may send the combined measurement policy to the second measurement device, and after receiving the combined measurement policy, the second measurement device measures a second measurement index of the target biological object according to second indication information in the combined measurement policy, so as to obtain a corresponding second measurement result.

Step S210, measuring a first measurement index of the target biological object according to the first indication information.

Specifically, the first measurement device may measure a first measurement index of the target biological object according to the first indication information, so as to obtain a corresponding first measurement result.

It should be noted that, the execution order of step S208 and step S210 is not limited in the embodiment of the present application, and step S210 may be executed before or after step S208 or may be executed simultaneously. That is, the order in which the first measuring device and the second measuring device respectively measure the target biological object is not limited. Optionally, since the first measuring device and the second measuring device measure the same target biological object, in order to reduce mutual interference between the two measuring devices, the first measuring device and the second measuring device measure with staggered measuring time.

For example, referring to table 1 below, table 1 is a schematic table of measurement capability information of a body fat scale and a smart band in one embodiment. When the first measuring device is a body fat scale, the corresponding first measurement capability information includes:

Body weight measurement, precision 50g, measuring time: 5s;

Impedance measurement, lower limb, error <10Ω, time: 5s;

heart rate measurement, wherein the accuracy is 95% < = + -5dbm, and the measurement time is 15s;

HRV (heart rate variability) measurement was performed for 20s.

When the second measurement device is an intelligent bracelet, the corresponding second measurement capability information comprises:

impedance measurement, wherein the part is an upper limb, the error is less than 10Ω, and the measurement time is 5s;

Heart rate measurement, wherein the accuracy is 95% < = + -5dbm based on the upper limb impedance, and the measurement time is 10s;

ECG (electrocardiogram) measurement is performed with an accuracy of 93% < = + -5dbm and a measurement time of 10s.

TABLE 1

Referring to fig. 3 and fig. 4 together, fig. 3 is a schematic diagram of the measurement results performed by different measurement devices in the conventional scheme. Fig. 4 is a schematic diagram of a result of performing combined measurement by combining the first measurement device and the second measurement device according to the method for measuring a biological indicator provided by the present application in one embodiment. Wherein, the body fat scale can perform weight measurement, impedance measurement, heart rate measurement and HRV measurement on a target biological object; the smart band may perform impedance measurements, heart rate measurements, and ECG measurements on the target biological subject.

As shown in fig. 3, in the conventional scheme, a body fat scale is required to perform weight measurement, impedance measurement, heart rate measurement, and HRV measurement. Specifically, the weight measurement was performed at the 0 th s, taking 5s; impedance measurements are taken at 5s to 10s, taking 5s; heart rate measurements are then taken at 10s to 25s, taking 15s; HRV measurements were then performed at 25s, taking 20s. The body fat scale takes 45 seconds in total to complete measurement of all indexes. The intelligent bracelet performs impedance measurement at the 0 th s, and takes 5s; heart rate measurements were taken at 5s, taking 10s; ECG measurements were then taken at 15s, taking 10s. The intelligent bracelet takes 25 seconds in total to complete measurement of all indexes. It can be seen that even if the body fat scale and the intelligent bracelet are synchronously measured, the time consumption for completing the measurement of all biological indexes is not less than 45s.

With reference to fig. 4, in the combined measurement strategy, the body fat scale needs to perform weight measurement, impedance measurement and HRV measurement, and does not need to perform heart rate measurement; while smart bracelets require impedance measurements, heart rate measurements, and ECG measurements. As shown in fig. 4, the body fat scale and the smart band each make a corresponding measurement, and at the 5 th s of the combined measurement, the weight measurement result may be displayed; displaying the impedance measurement at 10s of the combined measurement; displaying heart rate measurements at 15s of the combined measurement; displaying ECG at 25s of the joint measurement; HRV is shown at 30s of the combined measurement. Thus, after the combined measurement is finished, the total time is 30 seconds, which is greatly less than the total time 45 seconds for single measurement in the traditional scheme, and the measurement efficiency is improved.

According to the biological index measuring method, a combined measuring strategy for carrying out combined measurement on the target biological object is formulated according to the first measuring capability information of the first measuring device and the second measuring capability information of the second measuring device, and the first measuring device and the second measuring device respectively measure the biological index of the target biological object according to the optimal combined measuring strategy. Therefore, the first measuring equipment and the second measuring equipment are combined, the target biological object is measured by adopting a combined measuring strategy to divide tasks, repeated measurement can be avoided, and the measuring efficiency of biological indexes is greatly improved.

In one embodiment, step S204, that is, the step of determining the joint measurement policy according to the first measurement capability information and the second measurement capability information, specifically includes: determining at least part of biological indexes in the first biological indexes as first measurement indexes, and establishing a first corresponding relation between first measurement equipment and the first measurement indexes; determining at least part of the second biological indexes as second measurement indexes, and establishing a second corresponding relation between second measurement equipment and the second measurement indexes; determining first indication information and second indication information according to the first corresponding relation and the second corresponding relation; and generating a joint measurement strategy according to the first indication information and the second indication information.

Specifically, after the first measurement device acquires the first measurement capability information and the second measurement capability information, the first measurement device may determine some or all of the first biological indicators as the first measurement indicators, and establish a first correspondence between the first measurement device and each of the first measurement indicators, that is, set a measurement party of the first measurement indicators as the first measurement device. The first measuring device determines part or all of the second biological indicators as second measuring indicators, and establishes a second corresponding relation between the second measuring device and each second measuring indicator, namely, the measuring party of the second measuring indicators is set as the second measuring device.

In one embodiment, the first measurement capability information further includes a first measurement time required for the first measurement device to measure the first biological indicator; the second measurement capability information also includes a second measurement time required for the second measurement device to measure the second biological indicator. Determining at least some of the first biological indicators as first measurement indicators, comprising: when the first biological index and the second biological index contain at least one same biological index, acquiring a first measurement time and a second measurement time corresponding to the same biological index; when the first measurement time is smaller than the second measurement time, setting the same biological index as the first measurement index; when the first measurement time is longer than the second measurement time, the same biological index is set as the second measurement index.

Specifically, when the first biological indicator and the second biological indicator include at least one identical biological indicator, the first measurement device may acquire a first measurement time and a second measurement time respectively corresponding to the at least one identical biological indicator. When the first measurement time corresponding to a certain same biological index is smaller than the second measurement time, the first measurement device may set the same biological index as the first measurement index corresponding to the first measurement device. When the first measurement time is greater than the second measurement time, the first measurement device may set the same biological indicator as a second measurement indicator corresponding to the second measurement device.

In one embodiment, when the first measurement time is equal to the second measurement time, the first measurement device may determine whether the measurement result is more accurate when the first measurement device and the second measurement device both measure the same biological index, and if so, the same biological index is used as both the first measurement index and the second measurement index; if not, the same biological index is used as the first measurement index or the second measurement index.

In one embodiment, when the first measurement time is equal to the second measurement time, the first measurement device may determine whether measurement accuracy of the first measurement device and the second measurement device for measuring the same biological index respectively is consistent; if the measurement precision of the two biological indexes is inconsistent, the measurement equipment with higher measurement precision is used as a measuring party of the same biological index. If the measurement precision of the two same biological indexes is consistent, the same biological indexes are used as the first measurement indexes or the second measurement indexes.

In the above embodiment, when the first measuring device and the second measuring device both have the capability of measuring one or some of the same biological indicators, the measurement of the same biological indicators by the device with a faster measuring speed may be determined based on the first measuring time required by the first measuring device to measure the same biological indicators and the second measuring time required by the second measuring device to measure the same biological indicators, so as to improve the efficiency of the joint measurement.

In one embodiment, the first measurement capability information further includes a first measurement accuracy with which the first measurement device measures the first biological indicator; the second measurement capability information also includes a second measurement accuracy with which the second measurement device measures the second biological indicator. Determining at least some of the first biological indicators as first measurement indicators, comprising: when the first biological index and the second biological index contain at least one same biological index, acquiring a first measurement precision and a second measurement precision corresponding to the same biological index; when the first measurement accuracy is greater than the second measurement accuracy, setting the same biological index as the first measurement index; when the first measurement accuracy is smaller than the second measurement accuracy, the same biological index is set as the second measurement index.

Specifically, when the first biological indicator and the second biological indicator include at least one identical biological indicator, the first measurement device may acquire a first measurement accuracy and a second measurement accuracy, respectively, corresponding to the at least one identical biological indicator. When the first measurement accuracy corresponding to a certain same biological index is greater than the second measurement accuracy, the first measurement device may set the same biological index as the first measurement index corresponding to the first measurement device. When the first measurement accuracy is smaller than the second measurement accuracy, the first measurement device may set the same biological index as the second measurement index corresponding to the second measurement device.

In one embodiment, when the first measurement accuracy is equal to the second measurement accuracy, the first measurement device may determine whether the measurement result is more accurate when the first measurement device and the second measurement device both measure the same biological index, and if so, the same biological index is used as both the first measurement index and the second measurement index; if not, the same biological index is used as the first measurement index or the second measurement index.

In one embodiment, when the first measurement accuracy is equal to the second measurement accuracy, the first measurement device may determine whether measurement times required for the first measurement device and the second measurement device to measure the same biological index, respectively, are consistent; if the two required measurement times are inconsistent, the measurement equipment with shorter required measurement time is used as the measuring party of the same biological index. If the two measurement times are consistent, the same biological index is used as the first measurement index or the second measurement index.

In the above embodiment, when the first measurement device and the second measurement device both have the capability of measuring one or some of the same biological indicators, the measurement of the same biological indicator by the device with higher measurement accuracy may be determined based on the first measurement accuracy required by the first measurement device to measure the same biological indicator and the second measurement accuracy required by the second measurement device to measure the same biological indicator, so as to improve the accuracy of the joint measurement.

Further, after the first measurement device determines the first measurement index and the second measurement index, a first corresponding relationship between the first measurement device and the first measurement index may be established, and a second corresponding relationship between the second measurement device and the second measurement index may be established. And the first measurement equipment determines first indication information and second indication information according to the first corresponding relation and the second corresponding relation, and then uses the first indication information and the second indication information as specific contents of the combined measurement strategy.

In one embodiment, the number of the first measurement indexes is plural, and the first indication information may specifically indicate a measurement sequence of each first measurement index, so that the first measurement device may perform measurement according to a corresponding measurement sequence when performing measurement. Of course, the first indication information may not indicate the measurement sequence of each first measurement index, so that the first measurement device may randomly measure each first measurement index when performing measurement.

In one embodiment, the number of the second measurement indexes is plural, and the second indication information may specifically indicate the measurement sequence of each second measurement index, so that the second measurement device may perform measurement according to the corresponding measurement sequence when performing measurement. Of course, the second indication information may not indicate the measurement sequence of each second measurement index, so that the second measurement device may randomly measure each first measurement index when performing measurement.

In the above embodiment, a first correspondence between the first measurement device and the first measurement index is established, and the first indication information is determined according to the first correspondence; establishing a second corresponding relation between the second measuring equipment and the second measuring index, determining second indicating information according to the second corresponding relation, and generating a combined measuring strategy according to the first indicating information and the second indicating information. In this way, the measurement index of the measurement required by the first measurement device and the second measurement device respectively when the joint measurement is performed can be accurately indicated in the joint measurement.

In one embodiment, the number of the first measurement index and the second measurement index is a plurality, respectively. Determining the first indication information and the second indication information according to the first corresponding relation and the second corresponding relation comprises: determining a first measurement sequence of each first measurement index and a second measurement sequence of each second measurement index; determining first indication information according to the first corresponding relation and the first measurement sequence; and determining second indication information according to the second corresponding relation and the second measurement sequence.

Specifically, when the number of the first measurement indexes and the number of the second measurement indexes are respectively plural, the first measurement device may determine the first measurement order of each first measurement index and the second measurement order of each second measurement index according to the measurement time corresponding to each measurement index and/or the dependency relationship between each measurement index. And further determining first indication information according to the first corresponding relation and the first measurement sequence, and determining second indication information according to the second corresponding relation and the second measurement sequence.

For example, when the same measurement index exists in the first measurement index and the second measurement index, the first measurement apparatus may set the first measurement apparatus and the second measurement apparatus to measure the same measurement index in a similar time as much as possible. Or when a preset measurement sequence exists between different measurement indexes, for example, one measurement index needs to be measured first, and then a second measurement index is measured according to the measurement result of the one measurement index, where the measurement sequence of the one measurement index is set before the second measurement index.

In the above embodiment, the first measurement order of each first measurement index and the second measurement order of each second measurement index are determined, so that the first indication information may be determined according to the first correspondence and the first measurement order, and the second indication information may be determined according to the second correspondence and the second measurement order. Therefore, the corresponding indication information can indicate the corresponding measuring equipment to measure the measurement index according to the corresponding measurement sequence, and the method is convenient and quick.

In one embodiment, the joint measurement strategy is sent to the second measurement device, so that the second measurement device measures a second measurement index of the target biological object according to the second indication information, including: and sending the combined measurement strategy to second measurement equipment, so that the second measurement equipment measures the second measurement indexes of the target biological object according to the second measurement sequence of each second measurement index in the second indication information. Measuring a first measurement index of the target biological object according to the first indication information, including: and measuring the first measurement indexes of the target biological object according to the first measurement sequence of each first measurement index in the first indication information.

Specifically, when the first indication information includes a first measurement sequence, the first measurement device measures each first measurement index of the target biological object according to the corresponding first measurement sequence. When the second indication information includes the second measurement sequence, the second measurement device measures each second measurement index of the target biological object according to the corresponding second measurement sequence. Therefore, the corresponding indication information can indicate the corresponding measuring equipment to measure the measurement index according to the corresponding measurement sequence, and the method is convenient and quick.

In one embodiment, the method of measuring a biological indicator further comprises the step of determining a physiological parameter for measuring a target biological object, the step comprising: acquiring a first measurement result obtained by measuring a first measurement index by a first measurement device and a second measurement result obtained by measuring a second measurement index by a second measurement device; at least one physiological parameter of the target biological object is determined based on the first measurement and the second measurement.

It should be noted that the first measurement device and the second measurement device may jointly perform eight-electrode-like measurement on the target biological object. The eight-electrode-like measurement means that two devices are matched, one device measures the upper body impedance of the target biological object, the other device measures the lower body impedance of the target biological object, and then the upper body impedance measurement result and the lower body impedance measurement result are combined to determine a measurement mode of the physiological parameter of the target biological object.

For example, the first measurement device may measure the impedance of the upper body of the target biological object to obtain a corresponding first measurement result. The second measuring device can measure the impedance of the lower body of the target biological object to obtain a corresponding second measurement result. Further, the first measurement device may send the first measurement result to a second measurement device, which determines a physiological parameter for measuring the target biological object based on the first measurement result and the second measurement result. Or the second measurement device may send the second measurement result to the first measurement device, which determines the physiological parameter for measuring the target biological object based on the first measurement result and the second measurement result. The first measuring device and the second measuring device send the first measuring result and the second measuring result, respectively, to a further computer device, from which the physiological parameter for measuring the target biological object is determined.

For example, the first measuring device may be a smart bracelet, and the second measuring device may be a body scale. And measuring the impedance of the upper body of the user through the intelligent bracelet to obtain a corresponding first measurement result. The impedance of the lower body of the user can be measured through the body scale to obtain a corresponding second measurement result. The step of determining the final physiological parameter may be performed in any device, for example, when performed in a body scale, the smart band transmits the first measurement result to the body scale, and the body scale calculates the physiological parameter of the user; otherwise, the body scale may also send the second measurement result to the smart band, and the smart band calculates to obtain the physiological parameter of the user, which is not limited in the embodiment of the present application.

Further, when the second measuring device measures the second measurement index of the target biological object and obtains the second measurement result, the second measuring device may directly display the second measurement result. The second measuring device may also feed back the second measurement result to the first measuring device.

Further, the first measurement device may analyze the first measurement result and the second measurement result, and determine a physiological parameter for measuring the target biological object based on the first measurement result and the second measurement result. Of course, the first measuring device may also send the first measurement result to the second measuring device, so that the second measuring device may also obtain the physiological parameter for measuring the target biological object based on the first measurement result and the second measurement result.

In one embodiment, when the first measurement index and the second measurement index are the same biological index, the first measurement device may combine the corresponding first measurement result and second measurement result, obtain a comprehensive measurement result, and display the comprehensive measurement result in the first measurement device and the second measurement device synchronously.

In one embodiment, when the first measurement index and the second measurement index are different biological indexes, the first measurement device may receive, in real time, a second measurement result obtained when the second measurement device performs measurement, and display the second measurement result synchronously. And the first measuring device can also send the first measuring result obtained when the first measuring device performs measurement to the second measuring device in real time so as to realize synchronous display with the second measuring device.

In the above embodiment, according to the first measurement result obtained by the measurement performed by the first measurement device and the second measurement result obtained by the measurement performed by the second measurement device, the physiological parameter for measuring the target biological object can be determined, so that the determined physiological parameter covers the respective measurement results of the two devices, and is more accurate and comprehensive.

It should be understood that, although the steps in the flowchart of fig. 2 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least a portion of the steps in fig. 2 may include a plurality of steps or stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of the steps or stages is not necessarily sequential, but may be performed in rotation or alternatively with at least a portion of the steps or stages in other steps or other steps.

In one embodiment, as shown in fig. 5, there is provided a biological indicator measuring apparatus 500 comprising: an acquisition module 501, a receiving module 502, a determining module 503, a sending module 504 and a measuring module 505, wherein: the obtaining module 501 is configured to obtain first measurement capability information of a first measurement device, where the first measurement capability information includes a first biological indicator measurable by the first measurement device. The receiving module 502 is configured to establish a connection with a second measurement device, and receive second measurement capability information sent by the second measurement device, where the second measurement capability information includes a second biological indicator measurable by the second measurement device. A determining module 503, configured to determine a joint measurement policy according to the first measurement capability information and the second measurement capability information; the joint measurement strategy comprises first indication information and second indication information; the first indication information is used for indicating a first corresponding relation between the first measuring equipment and the first measuring index, and the second indication information is used for indicating a second corresponding relation between the second measuring equipment and the second measuring index; the first measurement indicator includes at least a portion of the first biological indicators, and the second measurement indicator includes at least a portion of the second biological indicators. A sending module 504, configured to send the joint measurement policy to the second measurement device, so that the second measurement device measures a second measurement indicator of the target biological object according to the second indication information. The measurement module 505 is configured to measure a first measurement indicator of the target biological object according to the first indication information.

According to the biological index measuring device, a combined measurement strategy for carrying out combined measurement on the target biological object is formulated according to the first measurement capability information of the first measuring equipment and the second measurement capability information of the second measuring equipment, and the first measuring equipment and the second measuring equipment respectively measure the biological index of the target biological object according to the optimal combined measurement strategy. Therefore, the first measuring equipment and the second measuring equipment are combined, the target biological object is measured by adopting a combined measuring strategy to divide tasks, repeated measurement can be avoided, and the measuring efficiency of biological indexes is greatly improved.

In one embodiment, the determining module 503 is further configured to determine at least some of the first biological indicators as first measurement indicators, and establish a first correspondence between the first measurement device and the first measurement indicators; determining at least part of the second biological indexes as second measurement indexes, and establishing a second corresponding relation between second measurement equipment and the second measurement indexes; determining first indication information and second indication information according to the first corresponding relation and the second corresponding relation; and generating a joint measurement strategy according to the first indication information and the second indication information.

In one embodiment, the first measurement capability information further includes a first measurement time required for the first measurement device to measure the first biological indicator; the second measurement capability information also includes a second measurement time required for the second measurement device to measure the second biological indicator. The determining module 503 is further configured to obtain a first measurement time and a second measurement time corresponding to the same biological indicator when the first biological indicator and the second biological indicator include at least one same biological indicator; when the first measurement time is smaller than the second measurement time, setting the same biological index as the first measurement index; when the first measurement time is longer than the second measurement time, the same biological index is set as the second measurement index.

In one embodiment, the first measurement capability information further includes a first measurement accuracy with which the first measurement device measures the first biological indicator; the second measurement capability information also includes a second measurement accuracy with which the second measurement device measures the second biological indicator. The determining module 503 is further configured to obtain a first measurement accuracy and a second measurement accuracy corresponding to the same biological index when the first biological index and the second biological index include at least one same biological index; when the first measurement accuracy is greater than the second measurement accuracy, setting the same biological index as the first measurement index; when the first measurement accuracy is smaller than the second measurement accuracy, the same biological index is set as the second measurement index.

In one embodiment, the number of the first measurement index and the second measurement index is a plurality, respectively. The determining module 503 is further configured to determine a first measurement order of each first measurement indicator and a second measurement order of each second measurement indicator; determining first indication information according to the first corresponding relation and the first measurement sequence; and determining second indication information according to the second corresponding relation and the second measurement sequence.

In one embodiment, the sending module 504 is further configured to send the joint measurement policy to the second measurement device, so that the second measurement device measures the second measurement index of the target biological object according to the second measurement sequence of each second measurement index in the second indication information. In one embodiment, the measurement module 505 is further configured to measure the first measurement indicator of the target biological object according to the first measurement order of the first measurement indicators in the first indication information.

In the above embodiment, the corresponding indication information may indicate the corresponding measurement device to measure the measurement index according to the corresponding measurement sequence, which is convenient and fast.

In one embodiment, the obtaining module 501 is further configured to obtain a first measurement result obtained by the first measurement device measuring the first measurement index and a second measurement result obtained by the second measurement device measuring the second measurement index. The determining module 502 is further configured to determine at least one physiological parameter of the target biological object based on the first measurement result and the second measurement result.

For specific limitations of the biological indicator measuring apparatus, reference is made to the above limitations of the biological indicator measuring method, and no further description is given here. The various modules in the above-described biological indicator measuring apparatus may be implemented in whole or in part by software, hardware, or a combination thereof. The above modules may be embedded in hardware or may be independent of the processor in the first measurement device, or may be stored in software in a memory in the first measurement device, so that the processor invokes and executes operations corresponding to the above modules.

In one embodiment, a first measurement device is provided, which may be a human health measurement device, a smart phone, a portable wearable device, etc., the internal structure of which may be as shown in fig. 6. The first measurement device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the first measuring device is adapted to provide computing and control capabilities. The memory of the first measurement device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The communication interface of the first measurement device is used for performing wired or wireless communication with an external terminal, and the wireless mode can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a method of biometric measurement. The display screen of the first measuring device can be a liquid crystal display screen or an electronic ink display screen, and the input device of the first measuring device can be a touch layer covered on the display screen, can also be a key, a track ball or a touch pad arranged on the shell of the first measuring device, and can also be an external keyboard, a touch pad or a mouse and the like.

It will be appreciated by those skilled in the art that the structure shown in fig. 6 is merely a block diagram of a portion of the structure associated with the present inventive arrangements and does not constitute a limitation of the first measuring device to which the present inventive arrangements are applied, and that a particular first measuring device may include more or fewer components than shown in the drawings, or may combine certain components, or have a different arrangement of components.

In one embodiment, a measurement device is provided comprising a memory and a processor, the memory having stored therein a computer program, the processor when executing the computer program performing the steps of: acquiring first measurement capability information of a first measurement device, wherein the first measurement capability information comprises a first biological index which can be measured by the first measurement device; establishing connection with a second measuring device, and receiving second measurement capability information sent by the second measuring device, wherein the second measurement capability information comprises a second biological index measurable by the second measuring device; determining a joint measurement strategy according to the first measurement capability information and the second measurement capability information; the joint measurement strategy comprises first indication information and second indication information; the first indication information is used for indicating a first corresponding relation between the first measuring equipment and the first measuring index, and the second indication information is used for indicating a second corresponding relation between the second measuring equipment and the second measuring index; the first measurement index includes at least a portion of the first biological index, and the second measurement index includes at least a portion of the second biological index; transmitting the combined measurement strategy to second measurement equipment, so that the second measurement equipment measures a second measurement index of the target biological object according to the second indication information; and measuring a first measurement index of the target biological object according to the first indication information.

The measuring device establishes a combined measurement strategy for carrying out combined measurement on the target biological object according to the first measurement capability information of the first measuring device and the second measurement capability information of the second measuring device, and enables the first measuring device and the second measuring device to respectively measure the biological index of the target biological object according to the optimal combined measurement strategy. Therefore, the first measuring equipment and the second measuring equipment are combined, the target biological object is measured by adopting a combined measuring strategy to divide tasks, repeated measurement can be avoided, and the measuring efficiency of biological indexes is greatly improved.

In one embodiment, the processor when executing the computer program further performs the steps of: determining at least part of biological indexes in the first biological indexes as first measurement indexes, and establishing a first corresponding relation between first measurement equipment and the first measurement indexes; determining at least part of the second biological indexes as second measurement indexes, and establishing a second corresponding relation between second measurement equipment and the second measurement indexes; determining first indication information and second indication information according to the first corresponding relation and the second corresponding relation; and generating a joint measurement strategy according to the first indication information and the second indication information.

In one embodiment, the first measurement capability information further includes a first measurement time required for the first measurement device to measure the first biological indicator; the second measurement capability information also includes a second measurement time required for the second measurement device to measure the second biological indicator. The processor when executing the computer program also implements the steps of: when the first biological index and the second biological index contain at least one same biological index, acquiring a first measurement time and a second measurement time corresponding to the same biological index; when the first measurement time is smaller than the second measurement time, setting the same biological index as the first measurement index; when the first measurement time is longer than the second measurement time, the same biological index is set as the second measurement index.

In one embodiment, the first measurement capability information further includes a first measurement accuracy with which the first measurement device measures the first biological indicator; the second measurement capability information also includes a second measurement accuracy with which the second measurement device measures the second biological indicator. The processor, when executing the computer program, also implements the steps of: when the first biological index and the second biological index contain at least one same biological index, acquiring a first measurement precision and a second measurement precision corresponding to the same biological index; when the first measurement accuracy is greater than the second measurement accuracy, setting the same biological index as the first measurement index; when the first measurement accuracy is smaller than the second measurement accuracy, the same biological index is set as the second measurement index.

In one embodiment, the number of the first measurement index and the second measurement index is a plurality, respectively. The processor when executing the computer program also implements the steps of: determining a first measurement sequence of each first measurement index and a second measurement sequence of each second measurement index; determining first indication information according to the first corresponding relation and the first measurement sequence; and determining second indication information according to the second corresponding relation and the second measurement sequence.

In one embodiment, the processor when executing the computer program further performs the steps of: and sending the combined measurement strategy to second measurement equipment, so that the second measurement equipment measures the second measurement indexes of the target biological object according to the second measurement sequence of each second measurement index in the second indication information. And measuring the first measurement indexes of the target biological object according to the first measurement sequence of each first measurement index in the first indication information.

In one embodiment, the processor when executing the computer program further performs the steps of: acquiring a first measurement result obtained by measuring a first measurement index by a first measurement device and a second measurement result obtained by measuring a second measurement index by a second measurement device; at least one physiological parameter of the target biological object is determined based on the first measurement and the second measurement.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of: acquiring first measurement capability information of a first measurement device, wherein the first measurement capability information comprises a first biological index which can be measured by the first measurement device; establishing connection with a second measuring device, and receiving second measurement capability information sent by the second measuring device, wherein the second measurement capability information comprises a second biological index measurable by the second measuring device; determining a joint measurement strategy according to the first measurement capability information and the second measurement capability information; the joint measurement strategy comprises first indication information and second indication information; the first indication information is used for indicating a first corresponding relation between the first measuring equipment and the first measuring index, and the second indication information is used for indicating a second corresponding relation between the second measuring equipment and the second measuring index; the first measurement index includes at least a portion of the first biological index, and the second measurement index includes at least a portion of the second biological index; transmitting the combined measurement strategy to second measurement equipment, so that the second measurement equipment measures a second measurement index of the target biological object according to the second indication information; and measuring a first measurement index of the target biological object according to the first indication information.

The computer readable storage medium establishes a combined measurement strategy for performing combined measurement on the target biological object according to the first measurement capability information of the first measurement device and the second measurement capability information of the second measurement device, and enables the first measurement device and the second measurement device to respectively measure biological indexes of the target biological object according to the optimal combined measurement strategy. Therefore, the first measuring equipment and the second measuring equipment are combined, the target biological object is measured by adopting a combined measuring strategy to divide tasks, repeated measurement can be avoided, and the measuring efficiency of biological indexes is greatly improved.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical Memory, or the like. Volatile memory can include random access memory (Random Access Memory, RAM) or external cache memory. By way of illustration, and not limitation, RAM can be in various forms such as static random access memory (Static Random Access Memory, SRAM) or dynamic random access memory (Dynamic Random Access Memory, DRAM), etc.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims

1. A method of measuring a biological indicator applied to a first measuring device, the method comprising:

determining at least part of the first biological indexes as first measurement indexes, and establishing a first corresponding relation between the first measurement equipment and the first measurement indexes; determining at least part of the second biological indexes as second measurement indexes, and establishing a second corresponding relation between the second measurement equipment and the second measurement indexes; determining a first measurement sequence of each first measurement index and a second measurement sequence of each second measurement index according to the measurement time corresponding to each measurement index and the dependency relationship between each measurement index; when the same measurement index exists in the first measurement index and the second measurement index, the first measurement equipment and the second measurement equipment are set to measure the same measurement index in similar time, and when one measurement index is measured firstly and then the second measurement index is measured according to the measurement result of the one measurement index, the measurement sequence of the one measurement index is set before the measurement sequence of the second measurement index;

Determining first indication information according to the first corresponding relation and the first measurement sequence; determining second indication information according to the second corresponding relation and the second measurement sequence; generating a joint measurement strategy according to the first indication information and the second indication information; the joint measurement strategy comprises first indication information and second indication information; the first indication information is used for indicating a first corresponding relation between the first measuring equipment and a first measuring index, and the second indication information is used for indicating a second corresponding relation between the second measuring equipment and a second measuring index; the first measurement indicator includes at least a portion of the first biological indicators, and the second measurement indicator includes at least a portion of the second biological indicators; when the first measuring device and the second measuring device have the same biological index, and the two parties can obtain more accurate measuring results through common measurement than independent measurement, the same biological index is used as the first measuring index corresponding to the first measuring device and the second measuring index corresponding to the second measuring device;

2. The method of claim 1, wherein the first measurement capability information further comprises a first measurement time required for the first measurement device to measure the first biological indicator; the second measurement capability information further includes a second measurement time required for the second measurement device to measure the second biological indicator;

the determining at least some of the first biological indicators as the first measurement indicator comprises:

When the first biological index and the second biological index contain at least one same biological index, acquiring a first measurement time and a second measurement time corresponding to the same biological index;

setting the same biological index as the first measurement index when the first measurement time is smaller than the second measurement time;

And setting the same biological index as the second measurement index when the first measurement time is longer than the second measurement time.

3. The method of claim 1, wherein the first measurement capability information further comprises a first measurement accuracy with which the first measurement device measures the first biological indicator; the second measurement capability information further includes a second measurement accuracy with which the second measurement device measures the second biological indicator;

When the first biological index and the second biological index contain at least one same biological index, acquiring a first measurement precision and a second measurement precision corresponding to the same biological index;

setting the same biological index as the first measurement index when the first measurement accuracy is greater than the second measurement accuracy;

and setting the same biological index as the second measurement index when the first measurement accuracy is smaller than the second measurement accuracy.

4. The method of claim 1, wherein the transmitting the joint measurement policy to the second measurement device such that the second measurement device measures the second measurement indicator of the target biological object in accordance with the second indication information comprises:

Transmitting the combined measurement strategy to the second measurement equipment, so that the second measurement equipment measures the second measurement indexes of the target biological object according to a second measurement sequence of each second measurement index in the second indication information;

The measuring the first measurement index of the target biological object according to the first indication information includes:

And measuring the first measurement indexes of the target biological object according to a first measurement sequence of each first measurement index in the first indication information.

5. A method according to any one of claims 1-3, wherein the method further comprises:

Acquiring a first measurement result obtained by the first measurement device for measuring the first measurement index and a second measurement result obtained by the second measurement device for measuring the second measurement index;

at least one physiological parameter of the target biological object is determined from the first measurement and the second measurement.

6. A biological indicator measuring apparatus for use with a first measuring device, the apparatus comprising:

The determining module is used for determining at least part of the first biological indexes as first measurement indexes and establishing a first corresponding relation between the first measurement equipment and the first measurement indexes; determining at least part of the second biological indexes as second measurement indexes, and establishing a second corresponding relation between the second measurement equipment and the second measurement indexes; determining a first measurement sequence of each first measurement index and a second measurement sequence of each second measurement index according to the measurement time corresponding to each measurement index and the dependency relationship between each measurement index; when the same measurement index exists in the first measurement index and the second measurement index, the first measurement equipment and the second measurement equipment are set to measure the same measurement index in similar time, and when one measurement index is measured firstly and then the second measurement index is measured according to the measurement result of the one measurement index, the measurement sequence of the one measurement index is set before the measurement sequence of the second measurement index;

7. The apparatus of claim 6, wherein the first measurement capability information further comprises a first measurement time required for the first measurement device to measure the first biological indicator; the second measurement capability information further includes a second measurement time required for the second measurement device to measure the second biological indicator; the determining module is further configured to obtain a first measurement time and a second measurement time corresponding to the same biological index when the first biological index and the second biological index include at least one same biological index; setting the same biological index as the first measurement index when the first measurement time is smaller than the second measurement time; and setting the same biological index as the second measurement index when the first measurement time is longer than the second measurement time.

8. The apparatus of claim 7, wherein the first measurement capability information further comprises a first measurement accuracy with which the first measurement device measures the first biological indicator; the second measurement capability information further includes a second measurement accuracy with which the second measurement device measures the second biological indicator; the determining module is further configured to obtain a first measurement precision and a second measurement precision corresponding to the same biological index when the first biological index and the second biological index include at least one same biological index; setting the same biological index as the first measurement index when the first measurement accuracy is greater than the second measurement accuracy; and setting the same biological index as the second measurement index when the first measurement accuracy is smaller than the second measurement accuracy.

9. A measurement device comprising a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to perform the steps of the method of any one of claims 1 to 5.

10. A computer readable storage medium storing a computer program, characterized in that the computer program when executed by a processor implements the steps of the method of any one of claims 1 to 5.