CN113408677A - Medical waste transportation data integration interactive interface system and method - Google Patents
Medical waste transportation data integration interactive interface system and method Download PDFInfo
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Abstract
The invention discloses a medical waste transportation data integration interactive interface system, which comprises a configuration module, a self-checking module, a UHF batch reading module and a data temporary storage module, wherein the configuration module is used for acquiring medical waste transportation data; the invention also discloses a medical waste transportation data integration interactive interface method. The system and the method have the advantages that the server address and frequency are manually set through the configuration module, the server address and frequency are set, the self-checking module is used for conducting electrifying health self-checking uploading, timing heartbeat and uploading data and then returning information for processing, the UHF batch reading module is used for reading the data in batches and then uploading the data to the server in a delayed mode, the data are temporarily stored when a network fault occurs through the data temporary storage module, and the data are synchronously temporarily stored after the network is recovered. The invention improves the expansibility of interface service, reduces the interface modification cost and the influence range, improves the interface response speed and the data integration process, ensures that the change and the maintenance of the interface are more efficient, can temporarily store and upload data and ensures the safety and the accuracy of the data.
Description
Technical Field
The invention relates to the technical field of medical waste treatment, in particular to a medical waste transportation data integration interactive interface system and a medical waste transportation data integration interactive interface method.
Background
Medical waste refers to medical waste, and in particular to waste with direct or indirect infectivity, toxicity and other harmfulness generated by medical and health institutions in medical, preventive, health and other related activities.
Medical waste transportation is an important link in medical waste treatment work, and data integration and transmission are required to be carried out through an interactive interface during medical waste transportation. When the existing interactive interface needs to be optimized or modified, the modification cost and the influence range are large, the expansion is difficult, and the adaptation period is long and the cost is high.
Disclosure of Invention
The invention aims to provide a medical waste transportation data integration interactive interface system and a medical waste transportation data integration interactive interface method, which improve the expansibility of interface service, reduce the modification cost and the influence range of an interface, improve the response speed of the interface and the data integration process, enable the change and maintenance of the interface to be more efficient, facilitate the judgment of whether the interface works normally, can temporarily store and upload data, ensure the safety and the accuracy of the data and solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme:
a medical waste transportation data integration interactive interface system comprises a configuration module, a self-checking module, a UHF batch reading module and a data temporary storage module;
the configuration module is used for manual setting of server addresses, manual setting of frequencies and setting of server addresses and frequencies;
the self-checking module is used for returning information for processing after electrifying health self-checking uploading, timing heartbeat and uploading data;
the UHF batch reading module is used for delaying and uploading data to the server after the data are read in batches, wherein the delay time is manually set, the return information is judged after the data are uploaded to the server, the information is broadcasted through a built-in loudspeaker, and the voice broadcasts corresponding related information codes;
the data temporary storage module is used for temporarily storing data when a network fault occurs and synchronously temporarily storing the data after the network is recovered.
As a preferred option of the medical waste transportation data integration interactive interface system of the present invention, the manual setting of the server address specifically includes manually setting the server address and related parameters through an IP and USB connection device; the manual frequency setting is specifically that the frequency and related parameters are manually adjusted through IP and USB connection equipment; the server address and frequency setting specifically includes that the heartbeat packet acquires a corresponding address, a corresponding radio frequency and a corresponding heartbeat frequency, and the heartbeat packet is automatically modified.
Preferably, as an interactive interface system for medical waste transportation data integration, the uploading of the power-on health self-check is a self-check after power-on, and the state is uploaded to a server; the timing heartbeat is specifically timing self-check, the state is uploaded to a server, and the state is manually adjusted through IP and USB connection equipment; the information returning after data uploading processing is to specifically return a result after data uploading, perform return state judgment and send out a prompt tone.
The medical waste transportation data integration interactive interface system preferably further comprises an interface parameter analysis module, wherein the interface parameter analysis module is used for analyzing the interface parameters and judging whether the interface parameters of the interface change or not.
Preferably, the interface parameter analysis module includes:
a. acquiring interface parameters of an object to be analyzed, wherein the interface parameters comprise keywords of an interface of the object to be analyzed and parameter values corresponding to the keywords;
b. determining a flow corresponding to the interface parameter according to the keyword, and establishing an interface parameter structure tree of the object to be analyzed according to the interface parameter and the flow corresponding to the interface parameter, wherein the interface parameter on each branch in the interface parameter structure tree corresponds to one flow, and the flow is used for expressing a data processing process for realizing a preset data processing function according to the interface parameter;
c. and merging the interface parameters belonging to the same flow in the interface parameter structure tree to obtain a merging result, and comparing the merging result to determine whether the interface parameters of the interface change.
Preferably, the determining a flow corresponding to the interface parameter according to the keyword, and establishing an interface parameter structure tree of the object to be analyzed according to the interface parameter and the flow corresponding to the interface parameter according to the medical waste transportation data integration interactive interface system of the present invention includes:
a. determining a process corresponding to the interface parameters according to the keywords, and determining the correlation strength between the interface parameters in the process according to a calculation formula;
b. according to the association strength and a preset strength threshold value, deleting the interface parameters of which the association strength is smaller than the strength threshold value;
c. and establishing an interface parameter structure tree of the object to be analyzed according to the deleted interface parameters and the corresponding flow.
Preferably, as an interface system for integrating medical waste transportation data, the calculation formula of the association strength between the interface parameters in the determination process is as follows:
wherein, Xi,YiFor indicating the value of an interface parameter, Cov (X)i,Yi) For the representation of XiAnd YiCovariance of (1), Var (X)i) Is XiVariance of (C), Var (Y)i) Is YiThe variance of (c).
The medical waste transportation data integration interactive interface system preferably further comprises a denoising module, wherein the denoising module is used for calculating the noise parameter of the interface and denoising according to the noise parameter.
Preferably, the medical waste transportation data integration interactive interface system of the present invention, the specific method for calculating the noise parameter of the interface includes:
a. calculating an empirical characteristic function of the received signal according to the definition of the empirical characteristic function;
the empirical characteristic function of the received signal is formulated as:
wherein r iskFor a received complex signal, L is the number of samples;
b. respectively solving the characteristic functions of MSK signals and Alpha stable distribution noise;
c. and (3) calculating a characteristic function of the received signal by utilizing the independence of the signal and the noise, wherein the MSK modulation signal and the Alpha stable distribution noise are mutually independent, so that the formula of the characteristic function of the received signal is as follows:
φr(t)=E{exp[jt(s+n)]}=φs(t)φn(t)
wherein s is MSK signal, n is Alpha stable distribution noise, phis(t) and phin(t) is a characteristic function of the signal and noise, respectively;
d. at two time points t1And t2In the above, the empirical characteristic function of the received signal is equal to the characteristic function simultaneous equation set, and the characteristic parameters and the scale parameters of the Alpha stable distributed noise can be obtained by solving the equation set.
A medical waste transportation data integration interactive interface method comprises the following steps:
s1, manually setting the address and frequency of the server through a configuration module;
s2, uploading the power-on health self-check, timing heartbeat and uploading data through the self-check module, and then returning to information processing;
s3, reading data in batch through the UHF batch reading module, delaying and uploading the data to the server, wherein the delay time is manually set, judging return information after uploading the data to the server, and broadcasting the information through a built-in loudspeaker, wherein the voice broadcasts corresponding related information codes;
and S4, temporarily storing the data when the network fault occurs through the data temporary storage module, and synchronously temporarily storing the data after the network is recovered.
Compared with the prior art, the invention has the beneficial effects that:
the system comprises a configuration module, a self-checking module, a UHF batch reading module, a data temporary storage module and a data temporary storage module, wherein the configuration module is used for manually setting a server address, manually setting a frequency and setting the server address and the frequency, the self-checking module is used for carrying out power-on health self-checking uploading, timing heartbeat and uploading data and then returning information processing, the UHF batch reading module is used for reading the data in batch and then uploading the data to the server in a delayed manner, the delay time is manually set, the return information is judged after the data are uploaded to the server, information broadcasting is carried out through a built-in loudspeaker, corresponding related information codes are broadcasted in a voice manner, the data are temporarily stored when a network fault occurs through the data temporary storage module, and the data are synchronously temporarily stored after the network is recovered. The invention improves the expansibility of interface service, reduces the modification cost and the influence range of the interface, improves the response speed of the interface and the data integration process, ensures that the change and the maintenance of the interface are more efficient, is convenient to judge whether the interface works normally, can temporarily store and upload data and ensures the safety and the accuracy of the data.
Drawings
FIG. 1 is a block diagram of the system of the present invention;
FIG. 2 is a schematic diagram illustrating a detailed operation flow of the interface parameter analysis module according to the present invention;
FIG. 3 is a schematic flow chart of the method of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.
Example 1
A medical waste transportation data integration interactive interface system comprises a configuration module, a self-checking module, a UHF batch reading module and a data temporary storage module;
the configuration module is used for manual setting of server addresses, manual setting of frequencies and setting of server addresses and frequencies;
the self-checking module is used for returning information for processing after electrifying health self-checking uploading, timing heartbeat and uploading data;
the UHF batch reading module is used for delaying and uploading data to the server after the data are read in batches, wherein the delay time is manually set, the return information is judged after the data are uploaded to the server, the information is broadcasted through a built-in loudspeaker, and the voice broadcasts corresponding related information codes;
the data temporary storage module is used for temporarily storing data when a network fault occurs and synchronously temporarily storing the data after the network is recovered.
As a technical optimization scheme of the invention, the manual setting of the server address specifically comprises the steps of manually setting the server address and related parameters through IP and USB connection equipment; the manual frequency setting is specifically that the frequency and related parameters are manually adjusted through IP and USB connection equipment; the server address and frequency setting specifically includes that the heartbeat packet acquires a corresponding address, a corresponding radio frequency and a corresponding heartbeat frequency, and the heartbeat packet is automatically modified.
As a technical optimization scheme of the invention, the power-on health self-check uploading is specifically a power-on self-check, and uploads the state to a server; the timing heartbeat is specifically timing self-check, the state is uploaded to a server, and the state is manually adjusted through IP and USB connection equipment; the information returning after data uploading processing is to specifically return a result after data uploading, perform return state judgment and send out a prompt tone.
The interface parameter analysis module is used for analyzing the interface parameters and judging whether the interface parameters of the interface change or not.
As a technical optimization scheme of the present invention, a specific working method of the interface parameter analysis module includes:
a. acquiring interface parameters of an object to be analyzed, wherein the interface parameters comprise keywords of an interface of the object to be analyzed and parameter values corresponding to the keywords;
b. determining a flow corresponding to the interface parameter according to the keyword, and establishing an interface parameter structure tree of the object to be analyzed according to the interface parameter and the flow corresponding to the interface parameter, wherein the interface parameter on each branch in the interface parameter structure tree corresponds to one flow, and the flow is used for expressing a data processing process for realizing a preset data processing function according to the interface parameter;
c. and merging the interface parameters belonging to the same flow in the interface parameter structure tree to obtain a merging result, and comparing the merging result to determine whether the interface parameters of the interface change.
As a technical optimization scheme of the present invention, the determining a flow corresponding to an interface parameter according to a keyword, and establishing an interface parameter structure tree of an object to be analyzed according to the interface parameter and the flow corresponding to the interface parameter comprises:
a. determining a process corresponding to the interface parameters according to the keywords, and determining the correlation strength between the interface parameters in the process according to a calculation formula;
b. according to the association strength and a preset strength threshold value, deleting the interface parameters of which the association strength is smaller than the strength threshold value;
c. and establishing an interface parameter structure tree of the object to be analyzed according to the deleted interface parameters and the corresponding flow.
As a technical optimization scheme of the present invention, the calculation formula for determining the correlation strength between the interface parameters in the process is as follows:
wherein, Xi,YiFor indicating the value of an interface parameter, Cov (X)i,Yi) For the representation of XiAnd YiCovariance of (1), Var (X)i) Is XiVariance of (C), Var (Y)i) Is YiThe variance of (c).
Example 2
A medical waste transportation data integration interactive interface system comprises a configuration module, a self-checking module, a UHF batch reading module and a data temporary storage module;
the configuration module is used for manual setting of server addresses, manual setting of frequencies and setting of server addresses and frequencies;
the self-checking module is used for returning information for processing after electrifying health self-checking uploading, timing heartbeat and uploading data;
the UHF batch reading module is used for delaying and uploading data to the server after the data are read in batches, wherein the delay time is manually set, the return information is judged after the data are uploaded to the server, the information is broadcasted through a built-in loudspeaker, and the voice broadcasts corresponding related information codes;
the data temporary storage module is used for temporarily storing data when a network fault occurs and synchronously temporarily storing the data after the network is recovered.
As a technical optimization scheme of the invention, the manual setting of the server address specifically comprises the steps of manually setting the server address and related parameters through IP and USB connection equipment; the manual frequency setting is specifically that the frequency and related parameters are manually adjusted through IP and USB connection equipment; the server address and frequency setting specifically includes that the heartbeat packet acquires a corresponding address, a corresponding radio frequency and a corresponding heartbeat frequency, and the heartbeat packet is automatically modified.
As a technical optimization scheme of the invention, the power-on health self-check uploading is specifically a power-on self-check, and uploads the state to a server; the timing heartbeat is specifically timing self-check, the state is uploaded to a server, and the state is manually adjusted through IP and USB connection equipment; the information returning after data uploading processing is to specifically return a result after data uploading, perform return state judgment and send out a prompt tone.
The technical optimization scheme of the invention also comprises a denoising module, wherein the denoising module is used for calculating the noise parameter of the interface and denoising according to the noise parameter.
As a technical optimization scheme of the present invention, the specific method for calculating the noise parameter of the interface includes:
a. calculating an empirical characteristic function of the received signal according to the definition of the empirical characteristic function;
the empirical characteristic function of the received signal is formulated as:
wherein r iskFor a received complex signal, L is the number of samples;
b. respectively solving the characteristic functions of MSK signals and Alpha stable distribution noise;
c. and (3) calculating a characteristic function of the received signal by utilizing the independence of the signal and the noise, wherein the MSK modulation signal and the Alpha stable distribution noise are mutually independent, so that the formula of the characteristic function of the received signal is as follows:
φr(t)=E{exp[jt(s+n)]}=φs(t)φn(t)
wherein s is MSK signal, n is Alpha stable distribution noise, phis(t) and phin(t) is a characteristic function of the signal and noise, respectively;
d. at two time points t1And t2In the above, the empirical characteristic function of the received signal is equal to the characteristic function simultaneous equation set, and the characteristic parameters and the scale parameters of the Alpha stable distributed noise can be obtained by solving the equation set.
A medical waste transportation data integration interactive interface method comprises the following steps:
s1, manually setting the address and frequency of the server through a configuration module;
s2, uploading the power-on health self-check, timing heartbeat and uploading data through the self-check module, and then returning to information processing;
s3, reading data in batch through the UHF batch reading module, delaying and uploading the data to the server, wherein the delay time is manually set, judging return information after uploading the data to the server, and broadcasting the information through a built-in loudspeaker, wherein the voice broadcasts corresponding related information codes;
and S4, temporarily storing the data when the network fault occurs through the data temporary storage module, and synchronously temporarily storing the data after the network is recovered.
Example 3
A medical waste transportation data integration interactive interface system comprises a configuration module, a self-checking module, a UHF batch reading module and a data temporary storage module;
the configuration module is used for manual setting of server addresses, manual setting of frequencies and setting of server addresses and frequencies;
the self-checking module is used for returning information for processing after electrifying health self-checking uploading, timing heartbeat and uploading data;
the UHF batch reading module is used for delaying and uploading data to the server after the data are read in batches, wherein the delay time is manually set, the return information is judged after the data are uploaded to the server, the information is broadcasted through a built-in loudspeaker, and the voice broadcasts corresponding related information codes;
the data temporary storage module is used for temporarily storing data when a network fault occurs and synchronously temporarily storing the data after the network is recovered.
As a technical optimization scheme of the invention, the manual setting of the server address specifically comprises the steps of manually setting the server address and related parameters through IP and USB connection equipment; the manual frequency setting is specifically that the frequency and related parameters are manually adjusted through IP and USB connection equipment; the server address and frequency setting specifically includes that the heartbeat packet acquires a corresponding address, a corresponding radio frequency and a corresponding heartbeat frequency, and the heartbeat packet is automatically modified.
As a technical optimization scheme of the invention, the power-on health self-check uploading is specifically a power-on self-check, and uploads the state to a server; the timing heartbeat is specifically timing self-check, the state is uploaded to a server, and the state is manually adjusted through IP and USB connection equipment; the information returning after data uploading processing is to specifically return a result after data uploading, perform return state judgment and send out a prompt tone.
The interface parameter analysis module is used for analyzing the interface parameters and judging whether the interface parameters of the interface change or not.
As a technical optimization scheme of the present invention, a specific working method of the interface parameter analysis module includes:
a. acquiring interface parameters of an object to be analyzed, wherein the interface parameters comprise keywords of an interface of the object to be analyzed and parameter values corresponding to the keywords;
b. determining a flow corresponding to the interface parameter according to the keyword, and establishing an interface parameter structure tree of the object to be analyzed according to the interface parameter and the flow corresponding to the interface parameter, wherein the interface parameter on each branch in the interface parameter structure tree corresponds to one flow, and the flow is used for expressing a data processing process for realizing a preset data processing function according to the interface parameter;
c. and merging the interface parameters belonging to the same flow in the interface parameter structure tree to obtain a merging result, and comparing the merging result to determine whether the interface parameters of the interface change.
As a technical optimization scheme of the present invention, the determining a flow corresponding to an interface parameter according to a keyword, and establishing an interface parameter structure tree of an object to be analyzed according to the interface parameter and the flow corresponding to the interface parameter comprises:
a. determining a process corresponding to the interface parameters according to the keywords, and determining the correlation strength between the interface parameters in the process according to a calculation formula;
b. according to the association strength and a preset strength threshold value, deleting the interface parameters of which the association strength is smaller than the strength threshold value;
c. and establishing an interface parameter structure tree of the object to be analyzed according to the deleted interface parameters and the corresponding flow.
As a technical optimization scheme of the present invention, the calculation formula for determining the correlation strength between the interface parameters in the process is as follows:
wherein, Xi,YiFor indicating the value of an interface parameter, Cov (X)i,Yi) For the representation of XiAnd YiCovariance of (1), Var (X)i) Is XiVariance of (C), Var (Y)i) Is YiThe variance of (c).
The technical optimization scheme of the invention also comprises a denoising module, wherein the denoising module is used for calculating the noise parameter of the interface and denoising according to the noise parameter.
As a technical optimization scheme of the present invention, the specific method for calculating the noise parameter of the interface includes:
a. calculating an empirical characteristic function of the received signal according to the definition of the empirical characteristic function;
the empirical characteristic function of the received signal is formulated as:
wherein r iskFor a received complex signal, L is the number of samples;
b. respectively solving the characteristic functions of MSK signals and Alpha stable distribution noise;
c. and (3) calculating a characteristic function of the received signal by utilizing the independence of the signal and the noise, wherein the MSK modulation signal and the Alpha stable distribution noise are mutually independent, so that the formula of the characteristic function of the received signal is as follows:
φr(t)=E{exp[jt(s+n)]}=φs(t)φn(t)
wherein s is MSK signal, n is Alpha stable distribution noise, phis(t) and phin(t)Characteristic functions of signal and noise, respectively;
d. at two time points t1And t2In the above, the empirical characteristic function of the received signal is equal to the characteristic function simultaneous equation set, and the characteristic parameters and the scale parameters of the Alpha stable distributed noise can be obtained by solving the equation set.
A medical waste transportation data integration interactive interface method comprises the following steps:
s1, manually setting the address and frequency of the server through a configuration module;
s2, uploading the power-on health self-check, timing heartbeat and uploading data through the self-check module, and then returning to information processing;
s3, reading data in batch through the UHF batch reading module, delaying and uploading the data to the server, wherein the delay time is manually set, judging return information after uploading the data to the server, and broadcasting the information through a built-in loudspeaker, wherein the voice broadcasts corresponding related information codes;
and S4, temporarily storing the data when the network fault occurs through the data temporary storage module, and synchronously temporarily storing the data after the network is recovered.
In summary, the invention manually sets the address of the server, manually sets the frequency, sets the address and the frequency of the server through the configuration module, performs power-on health self-check uploading, timed heartbeat and data uploading through the self-check module, returns information processing, reads data in batch through the UHF batch reading module, delays the data uploading to the server, judges the returned information after the data is uploaded to the server through the manual setting of the delay time, broadcasts information through the built-in speaker, broadcasts corresponding related information codes in voice, temporarily stores the data when a network fault occurs through the data temporary storage module, and synchronously temporarily stores the data after the network is recovered. The invention improves the expansibility of interface service, reduces the modification cost and the influence range of the interface, improves the response speed of the interface and the data integration process, ensures that the change and the maintenance of the interface are more efficient, is convenient to judge whether the interface works normally, can temporarily store and upload data and ensures the safety and the accuracy of the data.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (10)
1. The utility model provides a useless transportation data integration interactive interface system of medical science which characterized in that: the system comprises a configuration module, a self-checking module, a UHF batch reading module and a data temporary storage module;
the configuration module is used for manual setting of server addresses, manual setting of frequencies and setting of server addresses and frequencies;
the self-checking module is used for returning information for processing after electrifying health self-checking uploading, timing heartbeat and uploading data;
the UHF batch reading module is used for delaying and uploading data to the server after the data are read in batches, wherein the delay time is manually set, the return information is judged after the data are uploaded to the server, the information is broadcasted through a built-in loudspeaker, and the voice broadcasts corresponding related information codes;
the data temporary storage module is used for temporarily storing data when a network fault occurs and synchronously temporarily storing the data after the network is recovered.
2. The medical waste transportation data integration interactive interface system of claim 1, wherein: the manual setting of the server address specifically comprises the steps of manually setting the server address and related parameters through IP and USB connection equipment; the manual frequency setting is specifically that the frequency and related parameters are manually adjusted through IP and USB connection equipment; the server address and frequency setting specifically includes that the heartbeat packet acquires a corresponding address, a corresponding radio frequency and a corresponding heartbeat frequency, and the heartbeat packet is automatically modified.
3. The medical waste transportation data integration interactive interface system of claim 1, wherein: the power-on health self-check uploading is specifically a power-on self-check and uploads the state to a server; the timing heartbeat is specifically timing self-check, the state is uploaded to a server, and the state is manually adjusted through IP and USB connection equipment; the information returning after data uploading processing is to specifically return a result after data uploading, perform return state judgment and send out a prompt tone.
4. The medical waste transportation data integration interactive interface system of claim 1, wherein: the interface parameter analysis module is used for analyzing the interface parameters and judging whether the interface parameters of the interface change or not.
5. The medical waste transportation data integration interactive interface system of claim 4, wherein: the specific working method of the interface parameter analysis module comprises the following steps:
a. acquiring interface parameters of an object to be analyzed, wherein the interface parameters comprise keywords of an interface of the object to be analyzed and parameter values corresponding to the keywords;
b. determining a flow corresponding to the interface parameter according to the keyword, and establishing an interface parameter structure tree of the object to be analyzed according to the interface parameter and the flow corresponding to the interface parameter, wherein the interface parameter on each branch in the interface parameter structure tree corresponds to one flow, and the flow is used for expressing a data processing process for realizing a preset data processing function according to the interface parameter;
c. and merging the interface parameters belonging to the same flow in the interface parameter structure tree to obtain a merging result, and comparing the merging result to determine whether the interface parameters of the interface change.
6. The medical waste transportation data integration interactive interface system of claim 5, wherein: the determining the flow corresponding to the interface parameter according to the keyword, and establishing the interface parameter structure tree of the object to be analyzed according to the interface parameter and the flow corresponding to the interface parameter comprises:
a. determining a process corresponding to the interface parameters according to the keywords, and determining the correlation strength between the interface parameters in the process according to a calculation formula;
b. according to the association strength and a preset strength threshold value, deleting the interface parameters of which the association strength is smaller than the strength threshold value;
c. and establishing an interface parameter structure tree of the object to be analyzed according to the deleted interface parameters and the corresponding flow.
7. The medical waste transportation data integration interactive interface system of claim 6, wherein: the calculation formula for determining the correlation strength between the interface parameters in the process is as follows:
wherein, Xi,YiFor indicating the value of an interface parameter, Cov (X)i,Yi) For the representation of XiAnd YiCovariance of (1), Var (X)i) Is XiVariance of (C), Var (Y)i) Is YiThe variance of (c).
8. The medical waste transportation data integration interactive interface system of claim 1, wherein: the device also comprises a denoising module, wherein the denoising module is used for calculating the noise parameters of the interface and denoising according to the noise parameters.
9. The medical waste transportation data integration interactive interface system of claim 8, wherein: the specific method for calculating the noise parameter of the interface comprises the following steps:
a. calculating an empirical characteristic function of the received signal according to the definition of the empirical characteristic function;
the empirical characteristic function of the received signal is formulated as:
wherein r iskFor a received complex signal, L is the number of samples;
b. respectively solving the characteristic functions of MSK signals and Alpha stable distribution noise;
c. and (3) calculating a characteristic function of the received signal by utilizing the independence of the signal and the noise, wherein the MSK modulation signal and the Alpha stable distribution noise are mutually independent, so that the formula of the characteristic function of the received signal is as follows:
φr(t)=E{exp[jt(s+n)]}=φs(t)φn(t)
wherein s is MSK signal, n is Alpha stable distribution noise, phis(t) and phin(t) is a characteristic function of the signal and noise, respectively;
d. at two time points t1And t2In the above, the empirical characteristic function of the received signal is equal to the characteristic function simultaneous equation set, and the characteristic parameters and the scale parameters of the Alpha stable distributed noise can be obtained by solving the equation set.
10. A medical waste transportation data integration interactive interface method is characterized by comprising the following steps:
s1, manually setting the address and frequency of the server through a configuration module;
s2, uploading the power-on health self-check, timing heartbeat and uploading data through the self-check module, and then returning to information processing;
s3, reading data in batch through the UHF batch reading module, delaying and uploading the data to the server, wherein the delay time is manually set, judging return information after uploading the data to the server, and broadcasting the information through a built-in loudspeaker, wherein the voice broadcasts corresponding related information codes;
and S4, temporarily storing the data when the network fault occurs through the data temporary storage module, and synchronously temporarily storing the data after the network is recovered.
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