CN115941831B - Smart phone communication radio frequency test system and test method - Google Patents
Smart phone communication radio frequency test system and test method Download PDFInfo
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Abstract
The invention belongs to the field of communication test, relates to a data processing technology, and is used for solving the problem that a communication radio frequency test system and a test method of a smart phone cannot monitor the standardization of a test process in the prior art, in particular to the communication radio frequency test system and the test method of the smart phone, which comprise a radio frequency test platform, wherein the radio frequency test platform is in communication connection with a test analysis module, a verification analysis module, a data integration module and a storage module, the test analysis module is used for carrying out communication radio frequency test analysis on the smart phone, and the verification analysis module is used for carrying out communication radio frequency verification analysis on the smart phone; according to the method, communication radio frequency test analysis is carried out on the smart phone, the test coefficients are obtained through comprehensive analysis and calculation of various parameters of radio frequency test, the radio frequency test result of the smart phone is marked through the numerical value of the test coefficients, and feedback is carried out in time when the radio frequency test result is abnormal.
Description
Technical Field
The invention belongs to the field of communication test, relates to a data processing technology, and particularly relates to a smart phone communication radio frequency test system and a test method.
Background
The service area covered by the provider of the mobile network is divided into a number of small geographical areas called cells, where all wireless devices communicate via radio waves with a local antenna array and low power automatic transceivers in the cell; the intelligent mobile phone communication radio frequency test system and the intelligent mobile phone communication radio frequency test method in the prior art can only conduct error analysis on test results when radio frequency tests are conducted, but lack of a normalization monitoring function on the test process, and the radio frequency tests with unqualified operation normalization can also cause the problems of unreliable test results, low accuracy and the like;
in view of the above technical drawbacks, a solution is now proposed.
Disclosure of Invention
The invention aims to provide a smart phone communication radio frequency test system and a test method, which are used for solving the problem that the smart phone communication radio frequency test system and the test method in the prior art cannot monitor the standardization of a test process.
The technical problems to be solved by the invention are as follows: how to provide a smart phone communication radio frequency test system which can monitor the standardability of the test process itself.
The aim of the invention can be achieved by the following technical scheme:
the intelligent mobile phone communication radio frequency test system comprises a radio frequency test platform, wherein the radio frequency test platform is in communication connection with a test analysis module, a verification analysis module, a data integration module and a storage module;
the test analysis module is used for carrying out communication radio frequency test analysis on the smart phone: marking smart phones subjected to radio frequency testing in the same batch as a test object i, wherein i=1, 2, …, n and n are positive integers, acquiring sensitive data LMi, error code data WMi and bandwidth data DKi of the test object i when the radio frequency testing is performed, and performing numerical calculation on the sensitive data LMi, the error code data WMi and the bandwidth data DKi to obtain a test coefficient CSI of the test object i; judging whether the radio frequency test result of the test object i is qualified or not according to the numerical value of the test coefficient CSI; after all the test objects i finish radio frequency test, the test coefficients CSI of all the test objects i are sent to a data integration module through a radio frequency test platform;
the verification analysis module is used for carrying out communication radio frequency verification analysis on the smart phone: after the radio frequency test is finished on the test object i, performing verification test on the test object i and obtaining a verification coefficient YZi, wherein the verification test process is identical to the radio frequency test process, the absolute value of the difference value between the verification coefficient YZi and the test coefficient CSI is marked as a coincidence value CHi of the test object i, and whether the radio frequency test result error degree of the test object i meets the requirement or not is judged according to the numerical value of the coincidence value CHi; after all the test objects finish verification analysis, the verification coefficients YZi of all the test objects i are sent to a data integration module through a radio frequency test platform;
the data integration module is used for carrying out integration analysis on the radio frequency test result and the verification test result and obtaining an integration coefficient and a specification coefficient: the integrated threshold value and the standard threshold value are obtained through the storage module, the integrated coefficient and the standard coefficient are respectively compared with the integrated threshold value and the standard threshold value, and whether the radio frequency test overall state and the test standardization of the test object meet the requirements or not is judged according to the comparison result.
As a preferred embodiment of the present invention, the sensitivity data LMi is the reception sensitivity of the test subject i when performing radio frequency test; the error code data WMi is the error code rate when the test object i carries out radio frequency test, and the bandwidth data DKi is the average bandwidth value when the test object i carries out radio frequency test.
As a preferred embodiment of the invention, the specific process for judging whether the radio frequency test result of the test object i is qualified comprises the following steps: the test threshold value CSmin is obtained through the storage module, and the test coefficient CSI of the test object i is compared with the test threshold value CSmin: if the test coefficient CSI is smaller than or equal to the test threshold CSmin, judging that the radio frequency test result of the test object is unqualified, sending an unqualified signal to a radio frequency test platform by a test analysis module, and sending the unqualified signal to a mobile phone terminal of a manager after the radio frequency test platform receives the unqualified signal; if the test coefficient CSI is greater than the test threshold value CSmin, judging that the radio frequency test result of the test object is qualified.
As a preferred embodiment of the present invention, the specific process for determining whether the degree of error of the radio frequency test result of the test object i meets the requirement includes: acquiring a coincidence threshold value CHmax through a storage module, and comparing the coincidence value CHi of the test object i with the coincidence threshold value CHmax: if the coincidence value CHi is smaller than the coincidence threshold CHmax, judging that the error degree of the radio frequency test result of the test object i meets the requirement; if the coincidence value CHi is greater than or equal to the coincidence threshold CHmax, judging that the error degree of the radio frequency test result of the test object i does not meet the requirement, and transmitting an error abnormal signal to the radio frequency test platform by the verification analysis module, wherein the radio frequency test platform transmits the error abnormal signal to a mobile phone terminal of a manager after receiving the error abnormal signal.
As a preferred embodiment of the present invention, the process of acquiring the integration coefficient and the normalization coefficient includes: sequencing the test objects i according to the sequence of radio frequency tests, establishing a rectangular coordinate system by taking the serial number of the test objects i as an X axis and the test coefficient of the radio frequency test of the test objects i as a Y axis, marking the test points i in the rectangular coordinate system by taking the serial number of the test objects i as an abscissa and the test coefficient CSI as an ordinate, marking the verification points i in the rectangular coordinate system by taking the serial number of the test objects i as an abscissa and the verification coefficient YZi as an ordinate, marking one of the test points i with the same abscissa and the verification points i with larger ordinate value as a peak point i, marking the rest one as a valley point i, connecting the peak point with the serial number of 1 and the valley point with the serial number of 2 to obtain a first peak-valley line segment, connecting the valley point with the serial number of 1 and the peak point with the serial number of 2 to obtain a first valley-peak line segment, and marking the intersection point of the first peak-valley line segment and the first valley-peak line segment as an integration point 1; connecting the peak point with the sequence number of 2 and the valley point with the sequence number of 3 to obtain a second peak Gu Xianduan, connecting the valley point with the sequence number of 2 and the peak point with the sequence number of 3 to obtain a second valley peak line segment, and marking the intersection point of the second peak Gu Xianduan and the second valley peak line segment as an integration point 2; and the like until the marking of the integration point n-1 is completed; marking the average value of the ordinate values of n-1 integration points as an integration coefficient; and sequentially connecting n-1 integration points from left to right to obtain n-2 integration line segments, and summing absolute values of slope values of the integration line segments to obtain an average value to obtain a standard coefficient.
As a preferred embodiment of the present invention, the specific process of comparing the integration coefficient and the normalization coefficient with the integration threshold and the normalization threshold, respectively, includes:
if the integration coefficient is greater than or equal to the integration threshold value and the specification coefficient is less than the specification threshold value, judging that the radio frequency test results of the smart phones in the batch are wholly qualified and the standardization of the test process meets the requirement, and sending an wholly qualified signal and a test specification signal to the radio frequency test platform by the data integration module;
if the integration coefficient is greater than or equal to the integration threshold value and the standard coefficient is greater than or equal to the standard threshold value, judging that the whole of the radio frequency test results of the smart phones in the batch are qualified but the standardization of the test process is not satisfied, and sending a test non-standard signal to the radio frequency test platform by the data integration module;
if the integration coefficient is smaller than the integration threshold value and the standard coefficient is smaller than the standard threshold value, judging that the whole of the radio frequency test results of the smart phones in the batch is unqualified and the standardization of the test process meets the requirement, and sending a whole unqualified signal to the radio frequency test platform by the data integration module;
if the integration coefficient is smaller than the integration threshold value and the standard coefficient is larger than or equal to the standard threshold value, the whole disqualification of the radio frequency test results of the smart phones in the batch is judged, the standardization of the test process is not satisfied, and the data integration module sends a whole disqualification signal and a test disstandardization signal to the radio frequency test platform.
The intelligent mobile phone communication radio frequency test method comprises the following steps:
step one: communication radio frequency test analysis is carried out on the smart phone: marking smart phones subjected to radio frequency testing in the same batch as a test object i, wherein i=1, 2, …, n and n are positive integers, acquiring sensitive data LMi, error code data WMi and bandwidth data DKi when the test object i is subjected to radio frequency testing, performing numerical calculation to obtain a test coefficient CSI, and judging whether a radio frequency test result of the test object i is qualified or not according to the numerical value of the test coefficient CSI;
step two: communication radio frequency verification analysis is carried out on the smart phone: after the radio frequency test is finished on the test object i, performing verification test on the test object i to obtain a verification coefficient YZi, marking the absolute value of the difference value between the verification coefficient YZi and the test coefficient CSi as a coincidence value CHi of the test object i, and judging whether the error degree of the radio frequency test result meets the requirement or not according to the numerical value of the coincidence value CHi;
step three: and carrying out integrated analysis on the radio frequency test result and the verification test result: sequencing the test objects i according to the sequence of radio frequency tests, marking n-1 integration points in a rectangular coordinate system, acquiring integration coefficients and standard coefficients, and judging whether the integral state and the standardability of the radio frequency tests meet the requirements according to the numerical values of the integration coefficients and the standard coefficients.
The invention has the following beneficial effects:
1. the intelligent mobile phone communication radio frequency test analysis can be carried out through the test analysis module, the test coefficient is obtained through comprehensive analysis and calculation of various parameters of the radio frequency test, the radio frequency test result of the intelligent mobile phone is marked through the numerical value of the test coefficient, feedback is carried out in time when the radio frequency test result is abnormal, and then the intelligent mobile phone with unqualified radio frequency test result is intercepted;
2. the intelligent mobile phone can be subjected to communication radio frequency verification analysis through the verification analysis module, and the verification coefficient obtained through verification test is compared with the test coefficient, so that the error degree of a radio frequency test result is fed back through the numerical value of the coincidence value, and equipment parameter adjustment is timely carried out when the error degree of the radio frequency test result is unqualified;
3. the radio frequency test result and the verification test result can be integrated and analyzed through the data integration module, the integration point and the integration line segment are obtained through the distribution condition of the radio frequency point and the verification point in the rectangular coordinate system, and then the integral test result and the operation normalization are fed back through the integration point and the integration line segment, so that the accuracy of the test result and the operation process normalization are integrally ensured.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.
FIG. 1 is a system block diagram of a first embodiment of the present invention;
fig. 2 is a flowchart of a method according to a second embodiment of the invention.
Detailed Description
The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1
As shown in fig. 1, a smart phone communication radio frequency test system comprises a radio frequency test platform, wherein the radio frequency test platform is in communication connection with a test analysis module, a verification analysis module, a data integration module and a storage module.
The test analysis module is used for carrying out communication radio frequency test analysis on the smart phone: marking the smart phones subjected to radio frequency test in the same batch as a test object i, wherein i=1, 2, …, n and n are positive integers, and acquiring sensitive data LMi, error code data WMi and bandwidth data DKi when the test object i is subjected to radio frequency test, and the sensitive data LMi is the receiving sensitivity when the test object i is subjected to radio frequency test; the error code data WMi is the error code rate when the test object i carries out radio frequency test, the bandwidth data DKi is the average bandwidth value when the test object i carries out radio frequency test, the test coefficient CSI of the test object i is obtained by the formula CSI= (alpha 1 x LMi+alpha 2 x DKi)/(alpha 3 x WMi), the test coefficient is a numerical value reflecting the radio frequency test state of the test object, and the larger the numerical value of the test coefficient is, the better the radio frequency test state of the test object is indicated; wherein, alpha 1, alpha 2 and alpha 3 are all proportional coefficients, and alpha 1 > alpha 2 > alpha 3 > 1; the test threshold value CSmin is obtained through the storage module, and the test coefficient CSI of the test object i is compared with the test threshold value CSmin: if the test coefficient CSI is smaller than or equal to the test threshold CSmin, judging that the radio frequency test result of the test object is unqualified, sending an unqualified signal to a radio frequency test platform by a test analysis module, and sending the unqualified signal to a mobile phone terminal of a manager after the radio frequency test platform receives the unqualified signal; if the test coefficient CSI is greater than the test threshold value CSmin, judging that the radio frequency test result of the test object is qualified; after all the test objects i finish radio frequency test, the test coefficients CSI of all the test objects i are sent to a data integration module through a radio frequency test platform; and carrying out communication radio frequency test analysis on the smart phone, comprehensively analyzing and calculating various parameters of the radio frequency test to obtain a test coefficient, marking the radio frequency test result of the smart phone according to the numerical value of the test coefficient, timely feeding back when the radio frequency test result is abnormal, and intercepting the smart phone with unqualified radio frequency test result.
The verification analysis module is used for carrying out communication radio frequency verification analysis on the smart phone: after the radio frequency test is completed on the test object i, a verification test is carried out on the test object i and a verification coefficient YZi is obtained, the verification test process is identical to the radio frequency test process, the absolute value of the difference value between the verification coefficient YZi and the test coefficient CSi is marked as a coincidence value CHi of the test object i, a coincidence threshold value CHmax is obtained through a storage module, and the coincidence value CHi of the test object i is compared with the coincidence threshold value CHmax: if the coincidence value CHi is smaller than the coincidence threshold CHmax, judging that the error degree of the radio frequency test result of the test object meets the requirement; if the coincidence value CHi is greater than or equal to the coincidence threshold CHmax, judging that the radio frequency test result error degree of the test object does not meet the requirement, and transmitting an error abnormal signal to the radio frequency test platform by the verification analysis module, wherein the radio frequency test platform transmits the error abnormal signal to a mobile phone terminal of a manager after receiving the error abnormal signal; after all the test objects finish verification analysis, the verification coefficients YZi of all the test objects i are sent to a data integration module through a radio frequency test platform; and carrying out communication radio frequency verification analysis on the smart phone, and comparing a verification coefficient obtained through verification test with a test coefficient, so as to feed back the error degree of a radio frequency test result through the numerical value of the coincidence value, and timely adjusting equipment parameters when the error degree of the radio frequency test result is unqualified.
The data integration module is used for carrying out integration analysis on the radio frequency test result and the verification test result: sequencing the test objects i according to the sequence of radio frequency tests, establishing a rectangular coordinate system by taking the serial number of the test objects i as an X axis and the test coefficient of the radio frequency test of the test objects i as a Y axis, marking the test points i in the rectangular coordinate system by taking the serial number of the test objects i as an abscissa and the test coefficient CSI as an ordinate, marking the verification points i in the rectangular coordinate system by taking the serial number of the test objects i as an abscissa and the verification coefficient YZi as an ordinate, marking one of the test points i with the same abscissa and the verification points i with larger ordinate value as a peak point i, marking the rest one as a valley point i, connecting the peak point with the serial number of 1 and the valley point with the serial number of 2 to obtain a first peak-valley line segment, connecting the valley point with the serial number of 1 and the peak point with the serial number of 2 to obtain a first valley-peak line segment, and marking the intersection point of the first peak-valley line segment and the first valley-peak line segment as an integration point 1; connecting the peak point with the sequence number of 2 and the valley point with the sequence number of 3 to obtain a second peak Gu Xianduan, connecting the valley point with the sequence number of 2 and the peak point with the sequence number of 3 to obtain a second valley peak line segment, and marking the intersection point of the second peak Gu Xianduan and the second valley peak line segment as an integration point 2; and the like until the marking of the integration point n-1 is completed; marking the average value of the ordinate values of n-1 integration points as an integration coefficient; sequentially connecting n-1 integration points from left to right to obtain n-2 integration line segments, summing absolute values of slope values of the integration line segments, averaging to obtain a standard coefficient, obtaining an integration threshold and a standard threshold through a storage module, and comparing the integration coefficient and the standard coefficient with the integration threshold and the standard threshold respectively: if the integration coefficient is greater than or equal to the integration threshold value and the specification coefficient is less than the specification threshold value, judging that the radio frequency test results of the smart phones in the batch are wholly qualified and the standardization of the test process meets the requirement, and sending an wholly qualified signal and a test specification signal to the radio frequency test platform by the data integration module; if the integration coefficient is greater than or equal to the integration threshold value and the standard coefficient is greater than or equal to the standard threshold value, judging that the whole of the radio frequency test results of the smart phones in the batch are qualified but the standardization of the test process is not satisfied, and sending a test non-standard signal to the radio frequency test platform by the data integration module; if the integration coefficient is smaller than the integration threshold value and the standard coefficient is smaller than the standard threshold value, judging that the whole of the radio frequency test results of the smart phones in the batch is unqualified and the standardization of the test process meets the requirement, and sending a whole unqualified signal to the radio frequency test platform by the data integration module; if the integration coefficient is smaller than the integration threshold value and the specification coefficient is larger than or equal to the specification threshold value, judging that the whole radio frequency test results of the smart phones in the batch are unqualified and the standardization of the test process is not satisfied, and sending a whole unqualified signal and a test unstandardization signal to the radio frequency test platform by the data integration module; and carrying out integration analysis on the radio frequency test result and the verification test result, obtaining an integration point and an integration line segment through the distribution condition of the radio frequency point and the verification point in a rectangular coordinate system, and further feeding back the integrated test result and the operation normalization through the integration point and the integration line segment, thereby ensuring the accuracy of the test result and the operation procedure normalization on the whole.
Example two
As shown in fig. 2, a method for testing communication radio frequency of a smart phone includes the following steps:
step one: communication radio frequency test analysis is carried out on the smart phone: marking smart phones subjected to radio frequency testing in the same batch as a test object i, wherein i=1, 2, …, n and n are positive integers, acquiring sensitive data LMi, error code data WMi and bandwidth data DKi when the test object i is subjected to radio frequency testing, performing numerical calculation to obtain a test coefficient CSI, and judging whether a radio frequency test result of the test object i is qualified or not according to the numerical value of the test coefficient CSI;
step two: communication radio frequency verification analysis is carried out on the smart phone: after the radio frequency test is finished on the test object i, performing verification test on the test object i to obtain a verification coefficient YZi, marking the absolute value of the difference value between the verification coefficient YZi and the test coefficient CSi as a coincidence value CHi of the test object i, and judging whether the error degree of the radio frequency test result meets the requirement or not according to the numerical value of the coincidence value CHi;
step three: and carrying out integrated analysis on the radio frequency test result and the verification test result: sequencing the test objects i according to the sequence of radio frequency tests, marking n-1 integration points in a rectangular coordinate system, acquiring integration coefficients and standard coefficients, and judging whether the integral state and the standardability of the radio frequency tests meet the requirements according to the numerical values of the integration coefficients and the standard coefficients.
A communication radio frequency test system and a test method of a smart phone, which are used for carrying out communication radio frequency test analysis on the smart phone during working: marking smart phones in the same batch as a test object i, wherein i=1, 2, …, n and n are positive integers, acquiring sensitive data LMi, error code data WMi and bandwidth data DKi when the test object i is subjected to radio frequency test, performing numerical calculation to obtain a test coefficient CSI, and judging whether a radio frequency test result of the test object i is qualified or not according to the numerical value of the test coefficient CSI; and carrying out integrated analysis on the radio frequency test result and the verification test result: sequencing the test objects i according to the sequence of radio frequency tests, marking n-1 integration points in a rectangular coordinate system, acquiring integration coefficients and standard coefficients, and judging whether the integral state and the standardability of the radio frequency tests meet the requirements according to the numerical values of the integration coefficients and the standard coefficients.
The formulas are all formulas obtained by collecting a large amount of data for software simulation and selecting a formula close to a true value, and coefficients in the formulas are set by a person skilled in the art according to actual conditions; such as: formula csi= (α1×lmi+α2×dki)/(α3×wmi); collecting a plurality of groups of sample data by a person skilled in the art and setting a corresponding test coefficient for each group of sample data; substituting the set test coefficient and the acquired sample data into a formula, forming a ternary one-time equation set by any three formulas, screening the calculated coefficient, and taking an average value to obtain values of alpha 1, alpha 2 and alpha 3 of 5.47, 3.92 and 2.16 respectively;
the size of the coefficient is a specific numerical value obtained by quantizing each parameter, so that the subsequent comparison is convenient, and the size of the coefficient depends on the number of sample data and the corresponding test coefficient is preliminarily set for each group of sample data by a person skilled in the art; as long as the proportional relation between the parameter and the quantized value is not affected, for example, the test coefficient is proportional to the value of the sensitive data.
The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.
Claims (7)
1. The intelligent mobile phone communication radio frequency test system is characterized by comprising a radio frequency test platform, wherein the radio frequency test platform is in communication connection with a test analysis module, a verification analysis module, a data integration module and a storage module;
the test analysis module is used for carrying out communication radio frequency test analysis on the smart phone: marking smart phones subjected to radio frequency testing in the same batch as a test object i, wherein i=1, 2, …, n and n are positive integers, acquiring sensitive data LMi, error code data WMi and bandwidth data DKi of the test object i when the radio frequency testing is performed, and performing numerical calculation on the sensitive data LMi, the error code data WMi and the bandwidth data DKi to obtain a test coefficient CSI of the test object i; judging whether the radio frequency test result of the test object i is qualified or not according to the numerical value of the test coefficient CSI; after all the test objects i finish radio frequency test, the test coefficients CSI of all the test objects i are sent to a data integration module through a radio frequency test platform;
the verification analysis module is used for carrying out communication radio frequency verification analysis on the smart phone: after the radio frequency test is finished on the test object i, performing verification test on the test object i and obtaining a verification coefficient YZi, wherein the verification test process is identical to the radio frequency test process, the absolute value of the difference value between the verification coefficient YZi and the test coefficient CSI is marked as a coincidence value CHi of the test object i, and whether the radio frequency test result error degree of the test object i meets the requirement or not is judged according to the numerical value of the coincidence value CHi; after all the test objects finish verification analysis, the verification coefficients YZi of all the test objects i are sent to a data integration module through a radio frequency test platform;
the data integration module is used for carrying out integration analysis on the radio frequency test result and the verification test result and obtaining an integration coefficient and a specification coefficient: the integrated threshold value and the standard threshold value are obtained through the storage module, the integrated coefficient and the standard coefficient are respectively compared with the integrated threshold value and the standard threshold value, and whether the radio frequency test overall state and the test standardization of the test object meet the requirements or not is judged according to the comparison result.
2. The system according to claim 1, wherein the sensitivity data LMi is a receiving sensitivity of the test object i when performing radio frequency test; the error code data WMi is the error code rate when the test object i carries out radio frequency test, and the bandwidth data DKi is the average bandwidth value when the test object i carries out radio frequency test.
3. The system according to claim 2, wherein the specific process of determining whether the radio frequency test result of the test object i is acceptable comprises: the test threshold value CSmin is obtained through the storage module, and the test coefficient CSI of the test object i is compared with the test threshold value CSmin: if the test coefficient CSI is smaller than or equal to the test threshold CSmin, judging that the radio frequency test result of the test object is unqualified, sending an unqualified signal to a radio frequency test platform by a test analysis module, and sending the unqualified signal to a mobile phone terminal of a manager after the radio frequency test platform receives the unqualified signal; if the test coefficient CSI is greater than the test threshold value CSmin, judging that the radio frequency test result of the test object is qualified.
4. A smart phone communication radio frequency test system according to claim 3, wherein the specific process of determining whether the radio frequency test result error degree of the test object i meets the requirement comprises: acquiring a coincidence threshold value CHmax through a storage module, and comparing the coincidence value CHi of the test object i with the coincidence threshold value CHmax: if the coincidence value CHi is smaller than the coincidence threshold CHmax, judging that the error degree of the radio frequency test result of the test object i meets the requirement; if the coincidence value CHi is greater than or equal to the coincidence threshold CHmax, judging that the error degree of the radio frequency test result of the test object i does not meet the requirement, and transmitting an error abnormal signal to the radio frequency test platform by the verification analysis module, wherein the radio frequency test platform transmits the error abnormal signal to a mobile phone terminal of a manager after receiving the error abnormal signal.
5. The system for testing the communication radio frequency of the smart phone according to claim 4, wherein the process of acquiring the integration coefficient and the specification coefficient comprises: sequencing the test objects i according to the sequence of radio frequency tests, establishing a rectangular coordinate system by taking the serial number of the test objects i as an X axis and the test coefficient of the radio frequency test of the test objects i as a Y axis, marking the test points i in the rectangular coordinate system by taking the serial number of the test objects i as an abscissa and the test coefficient CSI as an ordinate, marking the verification points i in the rectangular coordinate system by taking the serial number of the test objects i as an abscissa and the verification coefficient YZi as an ordinate, marking one of the test points i with the same abscissa and the verification points i with larger ordinate value as a peak point i, marking the rest one as a valley point i, connecting the peak point with the serial number of 1 and the valley point with the serial number of 2 to obtain a first peak-valley line segment, connecting the valley point with the serial number of 1 and the peak point with the serial number of 2 to obtain a first valley-peak line segment, and marking the intersection point of the first peak-valley line segment and the first valley-peak line segment as an integration point 1; connecting the peak point with the sequence number of 2 and the valley point with the sequence number of 3 to obtain a second peak Gu Xianduan, connecting the valley point with the sequence number of 2 and the peak point with the sequence number of 3 to obtain a second valley peak line segment, and marking the intersection point of the second peak Gu Xianduan and the second valley peak line segment as an integration point 2; and the like until the marking of the integration point n-1 is completed; marking the average value of the ordinate values of n-1 integration points as an integration coefficient; and sequentially connecting n-1 integration points from left to right to obtain n-2 integration line segments, and summing absolute values of slope values of the integration line segments to obtain an average value to obtain a standard coefficient.
6. The system according to claim 5, wherein the specific process of comparing the integration coefficient and the specification coefficient with the integration threshold and the specification threshold, respectively, comprises:
if the integration coefficient is greater than or equal to the integration threshold value and the specification coefficient is less than the specification threshold value, judging that the radio frequency test results of the smart phones in the batch are wholly qualified and the standardization of the test process meets the requirement, and sending an wholly qualified signal and a test specification signal to the radio frequency test platform by the data integration module;
if the integration coefficient is greater than or equal to the integration threshold value and the standard coefficient is greater than or equal to the standard threshold value, judging that the whole of the radio frequency test results of the smart phones in the batch are qualified but the standardization of the test process is not satisfied, and sending a test non-standard signal to the radio frequency test platform by the data integration module;
if the integration coefficient is smaller than the integration threshold value and the standard coefficient is smaller than the standard threshold value, judging that the whole of the radio frequency test results of the smart phones in the batch is unqualified and the standardization of the test process meets the requirement, and sending a whole unqualified signal to the radio frequency test platform by the data integration module;
if the integration coefficient is smaller than the integration threshold value and the standard coefficient is larger than or equal to the standard threshold value, the whole disqualification of the radio frequency test results of the smart phones in the batch is judged, the standardization of the test process is not satisfied, and the data integration module sends a whole disqualification signal and a test disstandardization signal to the radio frequency test platform.
7. The intelligent mobile phone communication radio frequency test method is characterized by comprising the following steps of:
step one: communication radio frequency test analysis is carried out on the smart phone: marking smart phones subjected to radio frequency testing in the same batch as a test object i, wherein i=1, 2, …, n and n are positive integers, acquiring sensitive data LMi, error code data WMi and bandwidth data DKi when the test object i is subjected to radio frequency testing, performing numerical calculation to obtain a test coefficient CSI, and judging whether a radio frequency test result of the test object i is qualified or not according to the numerical value of the test coefficient CSI;
step two: communication radio frequency verification analysis is carried out on the smart phone: after the radio frequency test is finished on the test object i, performing verification test on the test object i to obtain a verification coefficient YZi, marking the absolute value of the difference value between the verification coefficient YZi and the test coefficient CSi as a coincidence value CHi of the test object i, and judging whether the error degree of the radio frequency test result meets the requirement or not according to the numerical value of the coincidence value CHi;
step three: and carrying out integrated analysis on the radio frequency test result and the verification test result: sequencing the test objects i according to the sequence of radio frequency tests, marking n-1 integration points in a rectangular coordinate system, acquiring integration coefficients and standard coefficients, and judging whether the integral state and the standardability of the radio frequency tests meet the requirements according to the numerical values of the integration coefficients and the standard coefficients.
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