CN109350071A

CN109350071A - A kind of flexible gait monitoring method calculated based on artificial intelligence

Info

Publication number: CN109350071A
Application number: CN201811325766.1A
Authority: CN
Inventors: 吴幸; 田希悦; 张嘉言; 王茜; 顾俊杰
Original assignee: East China Normal University
Current assignee: East China Normal University
Priority date: 2018-11-08
Filing date: 2018-11-08
Publication date: 2019-02-19

Abstract

The invention discloses a kind of flexible gait monitoring methods calculated based on artificial intelligence, its main feature is that can be in the neural network run on FPGA using human knee when walking and vola multiple groups pressure data training one, then the neural network that the multiple groups pressure data acquired in real time inputs completion training is compared and is identified, realize the intellectual monitoring of human figure health, the training of the neural network is that the artificial intelligence learning system that the knee of sensor array acquisition and plantar pressure signal are accessed three-layer network framework after ADC module processing learns, the neural network input feature vector comparison module for completing training is compared and identifies with the pressure signal inputted in real time, realize the intellectual monitoring of human figure health.The present invention has the accuracy rate of prediction high compared with prior art, and structure is simple, easy to use, realizes effective intellectual monitoring of human figure health, and for human figure and health status carries out reliable analysis and research provides reliable, effective data and supports.

Description

A kind of flexible gait monitoring method calculated based on artificial intelligence

Technical field

The present invention relates to artificial intelligence learning art field, especially a kind of energy artificial intelligence running on the FPGA is calculated The flexible gait monitoring method learnt.

Background technique

Gait is the behavioural characteristic of mankind's walking, is related to muscle and the joint association of foot, ankle, knee, hip, trunk, neck, shoulder and arm With movement, by being analyzed gait and being studied, human figure and human health status can be predicted.Good step Row habit facilitates people and keeps physically and mentally healthy, and nonstandard walking for years can be aggravated to triceps and heel string Pressure stimulation, bring harm to body.Along with the rapid development of wearable technology, gait monitoring device is realized small-sized Change, wearableization, by formed in teen-age athletic posture, patient it is postoperative in terms of play a significant role, make to move The coverage rate of sufficient state rectificative training greatly promotes.

Application No. is CN201610519761.7, patent name is the acquisition method and equipment of a kind of gait parameter, open A kind of acquisition method of gait data, comprising: obtain the voice signal curve of left and right foot；It is extracted according to peak detection algorithm Characterize that node contacts to earth the peak position of sound enough and not a node is contacted to earth the peak position of sound enough in the voice signal curve out, so The step pitch Lsd=V of each step is calculated afterwards_Sound( t₂-t₁)；Wherein, V_SoundFor the speed that sound is propagated in air, t₁And t₂Point Be not be fixed on different feet gait data acquisition device collect with primary single foot contact to earth issued sound at the time of, In, t₂It contacts to earth enough time of sound to collect not a node, t₁It contacts to earth time of sound to collect node, is walked by acquisition enough Road voice signal often walks to the day for human beings monitoring.

Gait can be subdivided into eight stages, respectively initially land the phase, support the reaction phase, and midpoint supports the phase, support the later period, Early period is swung, early stage is swung, swing mid-term and swings the later period.In different gait phases, human knee is different with foot form, just Begin the phase knee in the wrong 0 that lands^o, heel contacts to earth；Reaction phase knee is supported to bend 0^o-20^o, sole lands, and center of gravity gradually moves to foot center, vola In parallel；Midpoint supports phase knee to bend 20^o-0^o, foot central supported, heel is gradually liftoff；Later period knee is supported to bend 0^o, heel is liftoff, sole It lands；It swings knee early period and bends 0^o-40^o, foot is gradually liftoff；It swings early stage knee and bends degree by 40^oBecome 60^o, foot is liftoff；Pendulum Dynamic mid-term knee bends degree by 60^oBecome 30^o, foot is liftoff；It swings latter stage knee and bends 30^o-0^o, foot is liftoff, this eight gait ranks Human knee and foot have different forms in section, and the pressure of generation is also different.Initially the phase knee that lands does not stress, heel by Power, sole do not stress；Support reaction phase knee by no pressure to by smaller pressure, heel stress, sole stress；Midpoint supports the phase Knee by by smaller pressure to not stressing, heel stress, sole stress；Support later period knee does not stress, and heel does not stress, sole Stress；Knee early period is swung by not stressing to by smaller pressure, heel does not stress, and sole does not stress；Swing early stage knee by by Smaller pressure is to by larger pressure, and heel does not stress, and sole does not stress；Swing mid-term knee by by larger pressure to by smaller pressure Power, heel do not stress, and sole does not stress；It swings later period knee not stressing, heel does not stress, and sole does not stress.

The prior art pays close attention to influence of the foot to gait mostly, does not consider influence of the knee to gait, so as to gait Analysis and research poor reliability, largely effect on the prediction to human figure and human health status.

Summary of the invention

The purpose of the present invention is a kind of flexible steps calculated based on artificial intelligence for designing in view of the deficiencies of the prior art State monitoring method, human knee and plantar pressure signal, multiple groups pressure data when acquiring walking using pliable pressure sensor array Artificial intelligence learning system is transported to after circuit module is handled, and the data of acquisition are carried out with the study and training of neural network, benefit Human locomotion each stage can be identified with training successful neural network, realize effective intelligence prison of human figure health It surveys, for human figure and health status carries out reliable analysis and research provides reliable, effective data and supports.

The object of the present invention is achieved like this: a kind of flexible gait monitoring method calculated based on artificial intelligence, special Using human knee when walking and vola multiple groups pressure data one energy neural network running on the FPGA of training, then point is The neural network that the multiple groups pressure data acquired in real time inputs completion training is compared and is identified, realizes human figure health Intellectual monitoring, the training of the neural network carries out in the steps below:

Step 1: pliable pressure sensor array is acquired walking when human knee and vola multiple groups pressure signal input ADC turn Change the mold the conversion that block carries out modulus signal.

Step 2: inputting above-mentioned multiple groups digital pressure signal by input layer, hidden layer neuron and output layer The artificial intelligence learning system of neuron three-layer network framework is learnt, and is transported to its learning outcome by output layer neuron Training parameter comparison unit.

Step 3: meeting the training parameter of setting after the above-mentioned trained parameter comparison unit of learning outcome compares, then training Terminate；If above-mentioned learning outcome is not able to satisfy the training parameter of setting, input layer nerve is returned after being corrected the adjustment of weight Member, and hidden layer neuron and output layer neuron are again introduced by input layer, so carry out repeatedly circulation study Training, until learning outcome meets the training parameter of setting.

Step 4: neural network and real-time digital pressure signal input feature vector comparison module that will complete training, are counted It calculates and identifies, realize the intellectual monitoring of human figure health.

The pliable pressure sensor array is 64 × 64 sensor arrays, and is attached at knee and vola, and acquisition initially lands Phase, the midpoint support phase, in the support later period, swings early period, swings early stage, swinging mid-term and swing the later period eight steps the support reaction phase The pressure data in state stage.

The ADC conversion module is concatenated by gating circuit with analog to digital conversion circuit, and the gating circuit uses CD4067 chip.

The present invention has the accuracy rate of prediction high compared with prior art, and structure is simple, easy to use, realizes human figure Effective intellectual monitoring of health, for human figure and health status carries out reliable analysis and research provides reliable, effective data It supports.

Detailed description of the invention

Fig. 1 is flow chart of the present invention；

Fig. 2 is gait phase and knee and foot loading process figure；

Fig. 3 is implementation example figure.

Specific embodiment

Refering to attached drawing 1, human knee and vola multiple groups pressure data one neural network of training when the present invention utilizes walking, Then the neural network that the multiple groups pressure data acquired in real time inputs completion training is compared and is identified, realize human figure The intellectual monitoring of health, the training of the neural network carry out in the steps below:

Step 1: pliable pressure sensor array 1 is acquired walking when human knee and vola multiple groups pressure signal input ADC turn The conversion that block 2 carries out modulus signal is changed the mold, the ADC conversion module 2 is by the gating circuit 21 and analog to digital conversion circuit 22 that concatenate Composition；The gating circuit uses CD4067 chip.

Step 2: by the input of above-mentioned multiple groups digital pressure signal by input layer 31, hidden layer neuron 32 and defeated The artificial intelligence learning system 3 of 33 three-layer network framework of layer neuron is learnt out, and is learned by output layer neuron 33 Practise result output.

Step 3: above-mentioned learning outcome is inputted into training parameter comparison unit 34, if meeting the training parameter requirement of setting, Then training terminates；If above-mentioned learning outcome does not meet the training parameter requirement of setting, each layer mind is corrected by amendment weight 35 Input layer 31 is again returned to after the weight of member, and hidden layer neuron is again inputted by input layer 31 32, and learnt by hidden layer neuron 32 into output layer neuron 33, until learning outcome meets training parameter comparison The training parameter set in unit 34.

Step 4: the neural network for completing training and real-time digital pressure signal input feature vector comparison module 4 are counted It calculates and identifies, realize the intellectual monitoring of human figure health.

Refering to attached drawing 2, when people's walking, gait can be segmented are as follows: initially land the phase (heel stress, sole and knee not by Power) → support reaction phase (heel, knee and ball of foot stress) → midpoint support phase (heel, ball of foot and knee stress) → support later period (knee and heel do not stress, ball of foot stress) → swings early period (knee stress, heel and sole do not stress) → swinging early stage (knee stress, foot and sole do not stress) → swing mid-term (knee stress, foot and sole do not stress) → Swing eight gait phases of later period (knee stress, foot and sole do not stress).Eight kinds of gaits are pressed caused by foot and knee Power distribution is different, and knee is stretched along with bending, and vola impetus changes between heel and sole, and the bending of knee leads to knee The pressure value that the pliable pressure sensor 1 at place is experienced changes.When heel is put forth effort in vola, pliable pressure sensor array 1 Heel member stress it is significant, when sole is put forth effort in vola, the sole part stress of pliable pressure sensor array 1 is significant.It attaches The signal that pliable pressure sensor array 1 in knee and vola acquires converts analog signals into digital letter by ADC conversion module 2 It is delivered to artificial intelligence learning system 3 after number, neural network is trained based on multiple groups pressure data, training is successfully neural Network can identify the human locomotion stage.

By following specific embodiments, the present invention is described in further detail.

Embodiment 1

Refering to attached drawing 3, the pliable pressure sensor array 1 be 64 × 64 sensor arrays, be attached at subject 6 knee and Vola, the acquisition initial phase that lands, the midpoint support phase, in the support later period, swing early period, swing early stage, swing mid-term the support reaction phase With the pressure data for swinging eight gait phases of later period.The sensor array line number that pliable pressure sensor array 1 uses is 64 rows, column Number is 64 column, and multiple sensing units work at the same time, and acquires the pressure value of foot and knee.Pliable pressure sensor array 1 will acquire To pressure signal transport to ADC conversion module 2, the conversion of gated circuit 21 and analog to digital conversion circuit 22, by subject 6 eight Input artificial intelligence learning system 3 is learnt after the analog signal of walking phase data is converted to digital signal.Each walking Stage acquires 3600 groups of data respectively, and the training parameter being arranged in training parameter unit 34 is respectively as follows: trained minimal error: 0.001；Allow the maximum step number of training: 5000 steps；Learning rate: 0.05；A training result is shown at interval of 10 steps.Training knot Fruit meets the parameter request being arranged in training parameter unit 34, then training terminates；If above-mentioned learning outcome does not meet the instruction of setting Practice parameter request, then again returns to input layer 31 after amendment weight 35 corrects the weight of each layer neuron, and by Input layer 31 is again inputted into hidden layer neuron 32, and by hidden layer neuron 32 enter output layer neuron 33 into Row study, until learning outcome meets the training parameter set in training parameter comparison unit 34.It will complete the nerve net of training Network and real-time digital pressure signal input feature vector comparison module 4.When 6 walking again of subject, pliable pressure sensor array 1 will The knee and foot pressure data acquired in real time is inputted by feature comparison module 4 and carries out human-step in trained neural network The intellectual monitoring of human figure health is realized in the identification of row order section.

Above only the present invention is further illustrated, and not to limit this patent, all is equivalence enforcement of the present invention, It is intended to be limited solely by within the scope of the claims of this patent.

Claims

1. a kind of flexible gait monitoring method calculated based on artificial intelligence, it is characterised in that human knee and foot when utilizing walking Bottom multiple groups pressure data trains an energy neural network running on the FPGA, then that the multiple groups pressure data acquired in real time is defeated The neural network for entering to complete training is compared and identifies, realizes the intellectual monitoring of human figure health, the neural network Training carries out in the steps below:

Step 1: pliable pressure sensor array is acquired walking when human knee and vola multiple groups pressure signal input ADC turn Change the mold the conversion that block carries out modulus signal；

Step 2: by the input of above-mentioned multiple groups digital pressure signal by input layer, hidden layer neuron and output layer nerve The artificial intelligence learning system of first three-layer network framework is learnt, and its learning outcome is transported to training by output layer neuron Parameter comparison unit；

Step 3: meeting the training parameter of setting, then training knot after the above-mentioned trained parameter comparison unit of learning outcome compares Beam；If above-mentioned learning outcome is not able to satisfy the training parameter of setting, input layer is returned after being corrected the adjustment of weight, And hidden layer neuron and output layer neuron are again introduced by input layer, so carry out the instruction of repeatedly circulation study Practice, until learning outcome meets the training parameter of setting；

Step 4: will complete training neural network and real-time digital pressure signal input feature vector comparison module, carry out calculate and The intellectual monitoring of human figure health is realized in identification.

2. the flexible gait monitoring method calculated according to claim 1 based on artificial intelligence, it is characterised in that the flexibility Pressure sensing array is 64 × 64 sensor arrays, and is attached at knee and vola, acquisition initially land the phase, the support reaction phase, in Point support phase, support later period swing early period, swing early stage, swing mid-term and swing the pressure data of eight gait phases of later period.

3. the flexible gait monitoring method calculated according to claim 1 based on artificial intelligence, it is characterised in that the ADC turns Mold changing block is made of the gating circuit and analog to digital conversion circuit concatenated.