WO2016101348A1

WO2016101348A1 - Detection system and method for predicting task-performing ability of soldier

Info

Publication number: WO2016101348A1
Application number: PCT/CN2015/070210
Authority: WO
Inventors: 张贯京; 陈兴明; 葛新科; 张少鹏; 方静芳; 克里斯基捏⋅普拉纽克; 古列莎⋅艾琳娜; 波达别特⋅伊万; 高伟明; 梁昊原; 梁艳妮; 周荣; 徐之艳; 周亮; 肖应芬; 郑慧华; 唐小浪; 李潇云; 王海荣; 程金兢
Original assignee: 深圳市前海安测信息技术有限公司; 深圳市易特科信息技术有限公司; 深圳市贝沃德克生物技术研究院有限公司
Priority date: 2014-12-27
Filing date: 2015-01-06
Publication date: 2016-06-30
Also published as: CN104586377A; CN104586377B

Abstract

A detection system and method for predicting a task-performing ability of a soldier, the system comprising: a detection device (10) worn by a soldier for detecting physical exertion data of the solider and for transmitting the physical exertion data to a detection platform (20); and the detection platform (20) for comparing the received physical exertion data with a pre-stored stamina model of the solider, analyzing the remaining stamina of the solider according to a comparison result and determining a task performing ability of the solider. By detecting remaining stamina, the physical condition of a solider in battle can be accurately known, thus accurately predicting a combat ability of the solider.

Description

Detection system and method for predicting soldiers' ability to perform tasks

Technical field

The present invention relates to the field of data processing technologies, and in particular, to a detection system and method for predicting a soldier's ability to perform tasks.

Background technique

Since ancient times, the control of research and improvement of the behavioral information of soldiers on the battlefield has been paid attention to. The main goal of the research has not changed, that is, the more scientific field operations and the loss of soldiers during combat, which involves a soldier. Feedback. In past actual combat, it was common for correspondents to carry bulky wireless stations to communicate with each soldier, while each soldier needed to wear simple short-range radio communication equipment such as helmets for radio communication. In addition to the communication with the correspondent, such as audio signals or video signals, the soldier's physical parameters, such as temperature and electrocardiogram, are usually sent to the headquarters, so that the headquarters can know the soldier's combat capability in real time.

At present, there are also some devices that can automatically control the soldier's body, such as automatic control to inject powerful analgesics or other urgent drugs into the soldiers, install an automatic injection device on the soldiers' clothes, and automatically judge the soldier's body through an editing program. Condition, and control the injection device to inject the required dose of the drug when the drug needs to be injected. However, this method is relatively simple in determining the physical condition of the soldier, and it is impossible to accurately determine the current state of the soldier, and the injection time and the dose to be injected are not accurate enough.

Summary of the invention

The main purpose of the invention is to accurately grasp the physical condition of the soldier during combat, so as to accurately predict the combat capability of the soldier.

To achieve the above object, the present invention provides a detection system for predicting a soldier's ability to perform a task, and the detection system for predicting a soldier's ability to perform a task includes a detection device and a detection platform:

The detecting device is worn on the soldier for detecting physical energy consumption data of the soldier, and transmitting the physical energy consumption data to the detecting platform;

The detection platform compares the received physical energy consumption data with the pre-existing soldier's physical fitness model, analyzes the remaining physical fitness of the soldier according to the comparison result, and determines the soldier's ability to perform the task.

Preferably, the detecting device comprises a step counting module, an acceleration sensing module, an altitude sensing module, a control module and a data communication module, wherein:

The step counting module is connected to the control module, configured to count the walking steps of the soldier, and send the counted walking steps to the control module;

The acceleration sensing module is connected to the control module, configured to detect an acceleration of a soldier walking, and send an acceleration of a soldier walking to the control module;

The altitude sensing module is connected to the control module, configured to detect altitude information of the soldier, and send the altitude information to the control module;

The control module is configured to control the detection mode of the detecting device, and is further configured to send the received walking step number, the acceleration of the soldier walking, and the altitude information to the data communication module;

The data communication module is connected to the control module, and is configured to interact with the detection platform, and send the walking steps, the acceleration of the soldier walking, and the altitude information to the detection platform, where the detection platform determines that the soldier performs the task. ability.

Preferably, the control module is a wearable wristwatch, and the control module includes a wristwatch body and a storage unit disposed in the wristwatch body; the acceleration sensing module is disposed in the wristwatch body; The storage unit is configured to store the vital information, the number of walking steps, the acceleration of the soldier's walking, and the altitude information.

Preferably, the detecting device further comprises:

The vital sign detecting module is connected to the control module, configured to detect the physical sign information of the soldier, and send the physical sign information to the control module.

Preferably, the sign detection module is disposed at a location near the soldier's heart, the sign detection module includes a heart rate detection module for detecting a soldier's heart rate, and a body temperature detection module for detecting a soldier's body temperature.

Preferably, the control module is a wearable wristwatch, and the control module comprises a wristwatch body and a set a storage unit in the wristwatch body; the acceleration sensing module is disposed in the wristwatch body; and the storage unit is configured to store the physical sign information, the walking steps, the acceleration of the soldier walking, and the altitude information.

Preferably, the step counter module is disposed within the soldier's shoe.

In addition, in order to achieve the above object, the present invention also provides a detecting method for predicting a soldier's ability to perform a task, the detecting method comprising the following steps:

The detecting device detects the physical energy consumption data of the soldier and transmits the physical energy consumption data to the detection platform;

Preferably, the detecting method for predicting a soldier's ability to perform a task further comprises the steps of:

The vital sign detecting module of the detecting device detects the vital signs information of the soldier, and sends the physical sign information to the detecting platform for the detecting platform to determine the current physical state of the soldier; the physical sign information includes the heart rate and body temperature of the soldier.

Preferably, the detecting device detects the physical energy consumption data of the soldier and transmits the physical energy consumption data to the detection platform:

The step counting module of the detecting device counts the walking steps of the soldier, and sends the counted walking steps to the detecting platform;

And the acceleration sensing module of the detecting device detects the acceleration of the soldier walking and sends the acceleration of the soldier walking to the detecting platform;

And the altitude sensing module of the detecting device detects the altitude information of the sensing wearer and transmits the altitude information to the detecting platform.

Preferably, the detecting platform compares the received physical energy consumption data with the pre-existing physical performance model of the soldier, analyzes the remaining physical fitness of the soldier according to the comparison result, and determines the ability of the soldier to perform the task, including:

The detection platform judges according to the received walking steps, the acceleration of the soldiers walking, and the altitude information. The current state of action of the soldier;

Based on the pre-existing soldier's physical performance model and the soldier's current operational status, the soldier's remaining physical fitness is analyzed, and the soldier's ability to perform the task is determined based on the remaining physical fitness.

The invention detects the physical energy consumption data of the soldier through the wearable device detecting device worn on the soldier, and transmits the physical energy consumption data to the detection platform, and the detection platform compares the received physical energy consumption data with the pre-existing soldier's physical energy model, and analyzes according to the comparison result. The remaining physical capacity of the soldier to determine the soldier's ability to complete the task currently performed. Through the detection of the remaining physical energy, the physical condition of the soldier during combat can be accurately grasped, thus ensuring accurate prediction of the soldier's combat capability.

DRAWINGS

1 is a schematic structural view of a first embodiment of a detection system for predicting a soldier's ability to perform a task according to the present invention;

Figure 2 is a schematic structural view of the detecting device of Figure 1;

3 is a schematic structural diagram of a second embodiment of a detection system for predicting a soldier's ability to perform a task according to the present invention;

Figure 4 is a schematic view of the remaining physical energy of different soldiers on the side of the detection platform of Figure 1;

FIG. 5 is a schematic flowchart diagram of a first embodiment of a method for detecting a soldier's ability to perform tasks according to the present invention; FIG.

FIG. 6 is a schematic diagram of the refinement process of step S20 in FIG. 5.

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

detailed description

It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides a medical image interpretation method based on intelligent speech recognition.

Referring to FIG. 1, FIG. 1 is a diagram of a first embodiment of a detection system for predicting a soldier's ability to perform a task according to the present invention. Schematic diagram.

In an embodiment, a detection system for predicting a soldier's ability to perform a task includes a detection device 10 and a detection platform 20, wherein:

The detecting device 10 is worn on the soldier for detecting the physical energy consumption data of the soldier and transmitting the physical energy consumption data to the detecting platform 20;

The detecting platform 20 compares the received physical energy consumption data with the pre-existing soldier's physical fitness model, analyzes the remaining physical fitness of the soldier according to the comparison result, and determines the soldier's ability to perform the task.

In this embodiment, by detecting in real time the various physical functions consumed by the soldier during the execution of the task, the remaining physical fitness of the soldier is analyzed and determined, and the execution ability of the soldier for the current task is determined according to the remaining physical fitness. Specifically, the physical energy consumption data of the soldier is detected by the detecting device 10, and the detecting device 10 is worn on the soldier, and the physical energy consumption data caused by the walking, running or other movement of the soldier during the execution of the task is detected in real time, and the detected data is detected. The physical energy consumption data is transmitted to the detection platform 20. The physical performance model of each soldier is pre-stored in the detection platform 20, and the physical fitness model is a limit value of the execution ability that can be achieved when the soldiers are in the limit state of each movement, and the limit values are combined and stored as the The physical model of the soldier, after receiving the physical energy consumption data transmitted by the detecting device 10, compares the physical energy consumed by the soldier in various sports situations with the corresponding limit value, and analyzes the remaining physical energy remaining by the soldier. The percentage is expressed in terms of the ability to further determine the soldier's ability to complete the task currently performed based on the remaining physical fitness. As shown in Figure 4, the percentage of remaining physical energy of the different soldiers displayed on the side of the detection platform 20 is detected.

In this embodiment, the wearer's physical energy consumption data is detected by the wearable device detecting device 10 worn on the soldier, and the physical energy consumption data is transmitted to the detecting platform 20, and the detecting platform 20 compares the received physical energy consumption data with the pre-existing soldier's physical fitness model. The remaining physical fitness of the soldier is analyzed based on the results of the comparison to determine the soldier's ability to complete the task currently being performed. Through the detection of the remaining physical energy, the physical condition of the soldier during combat can be accurately grasped, thus ensuring accurate prediction of the soldier's combat capability.

Referring to FIG. 2, FIG. 2 is a schematic structural view of the detecting device of FIG. 1.

In the above embodiment, the detecting device 10 includes a pedometer module 11, an acceleration sensing module 12, an altitude sensing module 13, a control module 14, and a data communication module 15, wherein:

The step counter module 11 is connected to the control module 14 for counting the number of walking steps of the soldier and walking the statistics The number of steps is sent to the control module 14; the counting step 11 is used to count the number of walking steps generated by the soldier during walking, running or other movements during the execution of the task;

The acceleration sensing module 12 is connected to the control module 14 for detecting the acceleration of the soldier's walking, and transmitting the acceleration of the soldier's walking to the control module 14; detecting the acceleration of the soldier's walking, and determining the current traveling state of the soldier, such as walking or Running or more intense exercise;

The altitude sensing module 13 is connected to the control module 14 for detecting the altitude information of the soldier and transmitting the altitude information to the control module 14; by detecting the altitude of the soldier, the height of the soldier can be determined;

The control module 14 is configured to control the detection mode of the detecting device, and is further configured to send the received walking steps, the acceleration of the soldier walking, and the altitude information to the data communication module 15; the detecting device is provided with different detection modes, such as sleeping. The mode, the execution task mode, and the like, the control module 14 can be configured to select a corresponding detection mode, and perform detection and determination in the detection mode; in addition, the control module 14 is further configured to receive the number of walking steps, the acceleration of the soldier walking, and After the altitude information and other data, the data is converted to the corresponding signal and sent to the data communication module 15;

The data communication module 15 is connected to the control module 14 for interacting with the detection platform 20, and sends the walking steps, the acceleration of the soldiers walking, and the altitude information to the detection platform 20 for the detection platform 20 to determine the ability of the soldier to perform tasks.

In this embodiment, the acceleration of the soldier's walking is detected by the acceleration sensing module 12, and the current traveling state of the soldier is determined according to the magnitude of the acceleration; the height of the soldier is detected by the altitude sensing module 13 to determine the current height of the soldier. And can determine the current traveling state of the soldier, such as climbing, crossing, etc.; the detecting platform 20 will determine the current traveling state of the soldier according to the acceleration and the current traveling state of the soldier determined according to the altitude of the soldier, combined with the stepping module 11 The number of walking steps detected is analyzed with the pre-existing limit value of the soldier in various traveling states to determine the remaining physical fitness of the soldier, and the soldier is further determined according to the physical fitness required for the task currently performed. Whether the remaining physical energy can complete the current task and prompt. Here, there are several special cases: First, if the acceleration sensing module 12 detects the acceleration of the soldier's walking, but the counting module 11 does not detect the number of walking steps of the soldier, in this case, the soldier is considered to be By car or other means of transportation, statistics on the consumed physical energy are not counted; secondly, if the control module 14 does not detect the taxi in the sleep mode within the preset time In the sleep state of the soldier, the soldier is considered not to have a rest within the preset time, and the preset time can be set to two days, so that it is not necessary to detect the current remaining physical fitness of the soldier, but directly judge that the soldier cannot complete the current task and perform prompt.

Referring to FIG. 3, FIG. 3 is a schematic structural diagram of a second embodiment of a detection system for predicting a soldier's ability to perform a task according to the present invention.

In the second embodiment of the present invention, the detecting apparatus 10 further includes:

The sign detection module 16 is connected to the control module 14 for detecting the physical sign information of the soldier and transmitting the vital sign information to the control module 14.

In order to cooperate with the remaining physical fitness of the soldier to further determine the soldier's ability to perform on the current task, the detecting device 10 further includes a vitality detecting module 16 through which the physical sign information of the soldier is detected and the physical information is sent to the control module 14 for control. The module performs signal conversion on the vital information and sends it to the detection platform 20. The detection platform 20 analyzes the current physical state of the soldier according to the physical information, and combines the remaining physical fitness of the soldier to determine whether the soldier can complete the currently performed task.

Further, the vital sign detecting module 16 may be disposed at a portion close to the soldier's heart, and the vital sign detecting module 16 includes a heart rate detecting module and a body temperature detecting module for detecting the heart rate of the soldier and the body temperature of the soldier, respectively, which can be reflected by the heart rate and the body temperature. The soldier's physical state, such as the soldier's temperature is too high, and the heart rate is too fast, indicating that the soldier's running state exceeds his physical limit at this time, to determine that the soldier can not complete the current task, and prompts. Here, there is also a special case where if the soldier's heart rate is detected to be too fast, but the body temperature is not detected to have a significant increase, the soldier may not be considered to have a heart rate that is too fast due to walking or exercise. It may be caused by excessive scare. This indicates that the soldier's physical condition is still normal, and it is not possible to determine that the soldier's physical condition is abnormal.

By detecting the soldier's heart rate and body temperature and other physical signs information, the soldier's ability to execute the current task is further judged based on the detected remaining physical fitness of the soldier, and the judgment of the soldier's ability to perform the task is more accurately ensured, and It can prevent soldiers from being in danger due to abnormal physical condition.

Based on the first and second embodiments of the present invention, the control module 14 can be configured as a wearable wristwatch. The control module 14 includes a wristwatch body and a storage unit disposed in the wristwatch body. The acceleration sensing module 12 can be The altitude sensing module 13 and the data communication module 15 are disposed in the wristwatch body and are worn by the soldiers. The acceleration and altitude information of the soldier's walking are detected at any time during the process; the storage unit is used for storing when receiving the storage sign information, the number of walking steps, the acceleration of the soldier walking, and the altitude information.

Further, the detecting device 10 can be set as a special clothing that can be worn on the soldier, and each detecting module is disposed at a corresponding position of the detection, for example, the position detecting module 16 is disposed at a position close to the heart, and each of them is electrically connected. The detection module is connected to the control module 14. The control module 14 is a wearable wristwatch, and the data detected by each detection module can be directly sent to the control module 14. For the special clothes, one piece can be set, that is, all the detection modules are disposed at a position where the clothes are attached to the body part of the person, and all the detection modules are electrically connected to the control module 14 through the sleeves of the clothes; The special clothes can be set into two pieces, that is, the vest worn by the body and the outer casing connected thereto, and the corresponding part of the vest is placed in contact with the human body to set the detecting module, and the outer casing is connected with the vest through the conductive button or other parts, and the outer casing is passed through the outer casing. It is connected to the control module 14 to electrically connect each detection module with the control module 14.

Further, the step module 11 can be disposed in the soldier's shoe or on the soldier's sole, thus ensuring more accurate detection of the number of walking steps during the soldier's walking; of course, the step module 11 can also be Soldier's shoes are integrated as an arrangement.

The present invention also provides a detection method for predicting a soldier's ability to perform a task.

Referring to FIG. 5, FIG. 5 is a schematic flowchart diagram of a first embodiment of a method for detecting a soldier's ability to perform tasks according to the present invention.

In an embodiment, the method for detecting a soldier's ability to perform a task includes:

Step S10, the detecting device detects the physical energy consumption data of the soldier, and transmits the physical energy consumption data to the detecting platform;

In step S20, the detection platform compares the received physical energy consumption data with the pre-existing soldier's physical fitness model, analyzes the remaining physical fitness of the soldier according to the comparison result, and determines the soldier's ability to perform the task.

In this embodiment, by detecting in real time the various physical functions consumed by the soldier during the execution of the task, the remaining physical fitness of the soldier is analyzed and determined, and the execution ability of the soldier for the current task is determined according to the remaining physical fitness. Specifically, the physical energy consumption data of the soldier is detected by the detecting device, and the detecting device is worn on the soldier, and the physical energy consumption data caused by the walking, running or other movement of the soldier during the execution of the task is detected in real time, and the detected physical energy is detected. Consumption data is transmitted to the detection platform; each of the detection platforms is pre-stored The physical fitness model of a soldier, which is the limit value of the ability to perform the force that can be achieved when the soldier is in the limit state of each type of exercise. The limit values are combined and stored as the physical fitness model of the soldier, upon receiving After detecting the physical energy consumption data transmitted by the device, the physical energy consumed by the soldier in various sports situations is compared with the corresponding limit value, and the remaining physical energy remaining by the soldier is analyzed, and the remaining body energy can be expressed in a percentage form, thereby further based on the remaining Physical fitness determines the soldier's ability to complete the task currently performed.

In this embodiment, the wearer's physical energy consumption data is detected by the wearable device detecting device worn on the soldier, and the physical energy consumption data is transmitted to the detection platform, and the detection platform compares the received physical energy consumption data with the pre-existing soldier's physical energy model according to the comparison result. Analyze the remaining physical fitness of the soldier to determine the soldier's ability to complete the task currently performed. Through the detection of the remaining physical energy, the physical condition of the soldier during combat can be accurately grasped, thus ensuring accurate prediction of the soldier's combat capability.

In the above embodiment, step S10 is specifically:

The step counting module of the detecting device counts the walking steps of the soldier and sends the statistical walking steps to the detecting platform;

And the altitude sensing module of the detecting device detects the altitude information of the sensing wearer and sends the altitude information to the detecting platform.

The step counting module is connected with the control module for counting the number of walking steps of the soldier, and sending the statistical walking steps to the control module; counting the walking, running or other movements generated by the soldiers during the execution of the task by the step counting module Number of walking steps;

The step counter module counts the number of walking steps of the soldier, and sends the counted walking steps to the control module, and counts the number of walking steps generated by the walking, running or other movements of the soldier during the execution of the task through the step counting module; the acceleration sensing module Detect the acceleration of the soldier's walking, and send the acceleration of the soldier's walking to the control module to detect the acceleration of the soldier's walking, and then determine the current state of the soldier's travel, such as walking or running or more intense movement; the altitude sensing module detects the soldier's Altitude information and altitude information is sent to the control module to determine the height of the soldier by detecting the altitude of the soldier. The control module controls the detection mode of the detecting device, and the number of walking steps received and the acceleration of the soldier walking are And altitude information is sent to the detection platform.

The detection device is provided with different detection modes, such as a sleep mode, a task execution mode, etc., and the control module can be used to select a corresponding detection mode, and perform detection and determination in the detection mode; in addition, the control module is further configured to receive After the number of walking steps, the acceleration of the soldiers walking, and the altitude information, the data is converted into corresponding data and sent to the data communication module; the data communication module interacts with the detection platform, and the walking steps and the acceleration of the soldiers walking And the altitude information is sent to the detection platform for the detection platform to determine the ability of the soldier to perform the task.

Referring to FIG. 6, FIG. 6 is a schematic diagram of the refinement process of step S20 in FIG.

In the above embodiment, step S20 specifically includes:

Step S21, the detecting platform determines the current action state of the soldier according to the received walking steps, the acceleration of the soldier walking, and the altitude information;

In step S22, the remaining physical fitness of the soldier is analyzed according to the physical model of the pre-existing soldier and the current operational state of the soldier, and the ability of the soldier to perform the task is determined according to the remaining physical fitness.

In this embodiment, the acceleration sensing module detects the acceleration of the soldier's walking, and determines the current traveling state of the soldier according to the magnitude of the acceleration; and the altitude sensing module detects the altitude of the soldier, and the current height of the soldier can be determined, and The current state of travel of the soldier can be judged, such as climbing, crossing, etc.; the detection platform will determine the current traveling state of the soldier determined according to the acceleration and the current traveling state of the soldier determined according to the altitude of the soldier, detected by the step counting module. The number of walking steps, and the pre-existing limit value of the soldier in various traveling states, determine the remaining physical fitness of the soldier, and further determine the remaining physical fitness of the soldier according to the physical energy required for the task currently performed. Can complete the current task and prompt. Here, there are several special cases: First, if the acceleration sensor module detects the acceleration of the soldier's walking, but the step counter module does not detect the number of walking steps of the soldier, in this case, the soldier is considered to be riding. Or other vehicles, will not count the physical fitness consumed; second, if the control module does not detect the sleep state of the soldier in the sleep mode within the preset time, the soldier is considered not to rest within the preset time. The preset time can be set to two days, so that it is not necessary to detect the soldier's current remaining physical capacity, but directly judge that the soldier cannot complete the current task and prompts.

A first embodiment for detecting a soldier's ability to perform a task based on the present invention, in the second embodiment The method further includes:

Step S30, the vital sign detecting module of the detecting device detects the physical sign information of the soldier, and sends the physical sign information to the detecting platform for the detecting platform to determine the current physical state of the soldier; the physical sign information includes the heart rate and the body temperature of the soldier.

In order to cooperate with the soldier's remaining physical ability to further determine the soldier's ability to perform on the current task, the detecting device further includes a vitality detecting module, and the physical sign detecting module detects the soldier's vital sign information, and sends the vital sign information to the control module, and the control module signs the physical sign. The information is converted and sent to the detection platform. The detection platform analyzes the current physical state of the soldier based on the physical information, and combines the remaining physical fitness of the soldier to determine whether the soldier can complete the currently performed task.

Further, the vital sign detecting module may be disposed near the soldier's heart, and the vital sign detecting module includes a heart rate detecting module and a body temperature detecting module respectively for detecting the soldier's heart rate and the soldier's body temperature, and the heart rate and the body temperature can reflect the soldier's body temperature. The physical state, such as the soldier's body temperature is too high, and the heart rate is too fast, indicating that the soldier's running state exceeds his body limit at this time, to determine that the soldier can not complete the current task, and prompts. Here, there is also a special case where if the soldier's heart rate is detected to be too fast, but the body temperature is not detected to have a significant increase, the soldier may not be considered to have a heart rate that is too fast due to walking or exercise. It may be caused by excessive scare. This indicates that the soldier's physical condition is still normal, and it is not possible to determine that the soldier's physical condition is abnormal.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims

A detection system for predicting a soldier's ability to perform a task, characterized in that the detection system for predicting a soldier's ability to perform a task includes a detection device and a detection platform:

The detecting device is worn on the soldier for detecting physical energy consumption data of the soldier, and transmitting the physical energy consumption data to the detecting platform;

The detection platform compares the received physical energy consumption data with the pre-existing soldier's physical fitness model, analyzes the remaining physical fitness of the soldier according to the comparison result, and determines the soldier's ability to perform the task.
The detecting system for predicting a soldier's ability to perform a task according to claim 1, wherein the detecting device comprises a step counting module, an acceleration sensing module, an altitude sensing module, a control module, and a data communication module, wherein :

The step counting module is connected to the control module, configured to count the walking steps of the soldier, and send the counted walking steps to the control module;

The acceleration sensing module is connected to the control module, configured to detect an acceleration of a soldier walking, and send an acceleration of a soldier walking to the control module;

The altitude sensing module is connected to the control module, configured to detect altitude information of the soldier, and send the altitude information to the control module;

The control module is configured to control the detection mode of the detecting device, and is further configured to send the received walking step number, the acceleration of the soldier walking, and the altitude information to the data communication module;

The data communication module is connected to the control module, and is configured to interact with the detection platform, and send the walking steps, the acceleration of the soldier walking, and the altitude information to the detection platform, where the detection platform determines that the soldier performs the task. ability.
The detecting system for predicting a soldier's ability to perform a task according to claim 2, wherein the control module is a wearable wristwatch, and the control module comprises a wristwatch body and a wristwatch body disposed in the wristwatch body a storage unit; the acceleration sensing module is disposed in the wristwatch body; and the storage unit is configured to store the physical information and the line Walking steps, acceleration of soldiers walking, and altitude information.
The detecting system for predicting a soldier's ability to perform a task according to claim 2, wherein the detecting means further comprises:

The vital sign detecting module is connected to the control module, configured to detect the physical sign information of the soldier, and send the physical sign information to the control module.
The detecting system for predicting a soldier's ability to perform a task according to claim 4, wherein the control module is a wearable wristwatch, and the control module comprises a wristwatch body and a wristwatch body disposed in the wristwatch body a storage unit; the acceleration sensing module is disposed in the wristwatch body; the storage unit is configured to store the physical sign information, the number of walking steps, the acceleration of the soldier walking, and the altitude information.
A detecting system for predicting a soldier's ability to perform a task according to claim 4, wherein said vital sign detecting module is disposed at a portion close to a soldier's heart, and said vital sign detecting module includes a heart rate detecting module for detecting a soldier's heart rate. And a body temperature detecting module for detecting the body temperature of the soldier.
The detecting system for predicting a soldier's ability to perform a task according to claim 6, wherein the control module is a wearable wristwatch, and the control module comprises a wristwatch body and a wristwatch body disposed in the wristwatch body a storage unit; the acceleration sensing module is disposed in the wristwatch body; the storage unit is configured to store the physical sign information, the number of walking steps, the acceleration of the soldier walking, and the altitude information.
A detection system for predicting a soldier's ability to perform a task according to claim 2, wherein said step module is disposed within a soldier's shoe.
A detection method for predicting a soldier's ability to perform a task, the detection method comprising the following steps:

The detecting device detects the physical energy consumption data of the soldier and transmits the physical energy consumption data to the detection platform;

The detection platform compares the received physical energy consumption data with the pre-existing soldier's physical fitness model, analyzes the remaining physical fitness of the soldier according to the comparison result, and determines the soldier's ability to perform the task.
The method for detecting a soldier's ability to perform a task according to claim 9, wherein the detecting method for predicting a soldier's ability to perform a task further comprises the steps of:

The vital sign detecting module of the detecting device detects the vital signs information of the soldier, and sends the physical sign information to the detecting platform for the detecting platform to determine the current physical state of the soldier; the physical sign information includes the heart rate and body temperature of the soldier.
The method for detecting a soldier's ability to perform a task according to claim 9, wherein the detecting means detects the physical energy consumption data of the soldier and transmits the physical energy consumption data to the detection platform comprises:

The step counting module of the detecting device counts the walking steps of the soldier, and sends the counted walking steps to the detecting platform;

And the acceleration sensing module of the detecting device detects the acceleration of the soldier walking and sends the acceleration of the soldier walking to the detecting platform;

And the altitude sensing module of the detecting device detects the altitude information of the sensing wearer and transmits the altitude information to the detecting platform.
The method for detecting a soldier's ability to perform a task according to claim 11, wherein the detecting method for predicting a soldier's ability to perform a task further comprises the steps of:

The vital sign detecting module of the detecting device detects the vital signs information of the soldier, and sends the physical sign information to the detecting platform for the detecting platform to determine the current physical state of the soldier; the physical sign information includes the heart rate and body temperature of the soldier.
The method for detecting a soldier's ability to perform a task according to claim 9, wherein the detecting platform compares the received physical energy consumption data with a pre-existing soldier's physical fitness model, and analyzes the remaining physical fitness of the soldier according to the comparison result. The steps to determine the soldier's ability to perform tasks include:

The detecting platform determines the current action state of the soldier according to the received walking steps, the acceleration of the soldier walking, and the altitude information;

Analyze the soldier based on the physical model of the pre-existing soldier and the current state of action of the soldier The remaining physical fitness, based on the remaining physical fitness, determines the ability of the soldier to perform the task.
The method for detecting a soldier's ability to perform a task according to claim 13, wherein the detecting method for predicting a soldier's ability to perform a task further comprises the steps of:

The vital sign detecting module of the detecting device detects the vital signs information of the soldier, and sends the physical sign information to the detecting platform for the detecting platform to determine the current physical state of the soldier; the physical sign information includes the heart rate and body temperature of the soldier.