阅读说明：本技术 计算机信息存储方法及存储介质 (Computer information storage method and storage medium ) 是由 徐晶 于 2019-01-13 设计创作，主要内容包括：本发明涉及一种计算机信息存储方法,所述方法包括使用计算机信息存储机构以采用航拍识别模式实现限行违章车牌的大面积检测处理。本发明的计算机信息存储方法及存储介质应用广泛,数据有效。由于为设备内部参数的检测搭建针对性的多组件检测机制,提高了设备内部参数的有效性和可用性,另外还采用航拍方式以及定制的地面通信机制,实现限行违章车牌的大面积检测处理,从而提高了交通执法的速度和精度。(The invention relates to a computer information storage method, which comprises the step of using a computer information storage mechanism to realize large-area detection processing of a license plate for a traffic-limiting violation by adopting an aerial photography identification mode. The computer information storage method and the storage medium have wide application and effective data. Because a targeted multi-component detection mechanism is set up for the detection of the internal parameters of the equipment, the effectiveness and the usability of the internal parameters of the equipment are improved, and in addition, an aerial photography mode and a customized ground communication mechanism are adopted, the large-area detection processing of the license plate for traffic control violation is realized, so that the speed and the precision of traffic enforcement are improved.)

1. A computer information storage method, the method comprising using a computer information storage mechanism to implement a large area detection process for a license plate for a restricted violation using an aerial photography identification mode, the computer information storage mechanism comprising:

the computer structure comprises a processor, a memory, an input/output interface and a data bus, is arranged at the position of a traffic control department and is used for receiving and storing one or more restricted violation numbers uploaded by the signal uploading equipment;

the radio frequency receiver is used for receiving aerial photographing signals from an aerial photographing device through a wireless communication link, and the aerial photographing device is provided with aerial photographing equipment and is used for performing photographing processing on a lower area to obtain a real-time aerial photographing image;

the OFDM modem is connected with the radio frequency receiver and is used for modulating and demodulating the received aerial photography signal;

the channel source decoder is connected with the OFDM modem and is used for sequentially performing channel decoding and source decoding operations on output data of the OFDM modem so as to obtain a real-time aerial image;

the data analysis equipment is connected with the channel information source decoder and used for identifying each license plate pattern in the real-time aerial image based on the license plate imaging characteristics and respectively executing OCR (optical character recognition) processing on each license plate pattern to obtain each field license plate number;

the violation judging device is connected with the data analyzing device and is used for receiving the field license plate numbers and determining one or more violation numbers in the field license plate numbers based on the current time period;

the signal uploading device is connected with the violation judging device and is used for uploading the one or more restricted violation numbers to the computer system;

the SGRAM storage equipment is used for pre-storing the appearance of the OFDM modem and is also used for pre-storing the appearance of a channel source decoder;

the humidity detection units are respectively arranged inside the channel information source decoder, the arrangement shape of the humidity detection units inside the channel information source decoder is matched with the appearance of the channel information source decoder, and each humidity detection unit is used for sensing the humidity at the position of the humidity detection unit to serve as real-time humidity output;

the temperature detection units are respectively arranged inside the OFDM modem, the arrangement shape of the temperature detection units inside the OFDM modem is matched with the appearance of the OFDM modem, and each temperature detection unit is used for sensing the temperature of the position where the temperature detection unit is located to serve as real-time temperature output;

the humidity analysis equipment is respectively connected with the humidity detection units and used for receiving the real-time humidities output by the humidity detection units and performing weighted average operation on the real-time humidities to obtain an internal humidity reference value;

the temperature analysis equipment is respectively connected with the plurality of temperature detection units and used for receiving the plurality of real-time temperatures respectively output by the plurality of temperature detection units and performing weighted average operation on the plurality of real-time temperatures to obtain an internal temperature reference value;

the voice playing device is respectively connected with the temperature analysis device and the humidity analysis device, and is used for receiving the internal temperature reference value and the internal humidity reference value and carrying out real-time voice playing on the internal temperature reference value and the internal humidity reference value;

wherein the arrangement shape of the plurality of temperature detection units in the OFDM modem is matched with the appearance of the OFDM modem, and the arrangement shape comprises the following steps: and arranging a corresponding temperature detection unit at the centroid position and each vertex position of the outline of the OFDM modem.

2. The method of claim 1, wherein:

the arrangement shape of the plurality of humidity detection units in the channel source decoder is matched with the appearance of the channel source decoder, and the arrangement shape comprises the following steps: and respectively arranging a corresponding humidity detection unit at the centroid position and each vertex position of the outline of the channel source decoder.

3. The method of claim 2, wherein the mechanism further comprises:

and the curvature adjusting device is connected with the channel information source decoder and used for receiving the real-time aerial image and executing curvature adjustment on the real-time aerial image so as to reduce each curvature of each curve in the real-time aerial image below a preset curvature threshold value to obtain a curvature adjusting image.

4. The method of claim 3, wherein the mechanism further comprises:

and the content detection device is connected with the curvature adjustment device and used for detecting the maximum target in the curvature adjustment image, taking the area occupied by the maximum target in the curvature adjustment image as a target image area corresponding to the curvature adjustment image, determining the target inclination grade of the curvature adjustment image based on the outline of the target image area and the outline of the curvature adjustment image to be used as an instant target inclination grade, and outputting the instant target inclination grade.

5. The method of claim 4, wherein the mechanism further comprises:

and the signal identification device is connected with the content detection device and used for receiving the instant target inclination grade, sending a second control signal when the instant target inclination grade does not exceed a preset grade threshold value, and sending a first control signal when the instant target inclination grade exceeds the preset grade threshold value.

6. The method of claim 5, wherein the mechanism further comprises:

and the self-adaptive adjusting device is respectively connected with the data analysis device, the signal identification device and the content detection device, and is used for executing circulating target rotation processing on the curvature adjusting image when receiving a first control signal until the instant target gradient grade of the obtained processed image does not exceed a preset grade threshold value, and sending the obtained processed image to the data analysis device as a self-adaptive adjusting image instead of the real-time aerial image.

7. The method of claim 6, wherein:

the content detection device comprises a content receiving sub-device, a target dividing sub-device, a grade analysis sub-device and a data output sub-device;

wherein, in the content detection device, the content receiving sub-device is configured to receive the curvature adjustment image, and the target segmentation sub-device is connected to the content receiving sub-device and configured to use a region occupied by the maximum target in the curvature adjustment image as a target image region corresponding to the curvature adjustment image.

8. The method of claim 7, wherein:

in the content detection device, the level analysis sub-device is connected to the target segmentation sub-device and the data output sub-device, respectively, and is configured to determine a target gradient level of the curvature adjustment image as an instantaneous target gradient level based on an outer shape of the target image region and an outer shape of the curvature adjustment image;

wherein the adaptive adjustment device is further configured to output the curvature adjustment image as an adaptive adjustment image upon receiving a second control signal.

9. A computer-readable storage medium, having stored thereon a computer program which, when executed, performs the steps of the method of claim 8.

Technical Field

The present invention relates to the field of computers, and in particular, to a computer information storage method and a storage medium.

Background

The computer not only can perform accurate calculation, but also has a logic operation function and can compare and judge information. The computer can store the data and program of operation, intermediate result and final result, and can automatically execute the next instruction according to the judged result for the user to call at any time.

The memory inside the computer has a memory characteristic and can store a large amount of information, which includes not only various kinds of data information but also programs for processing the data.

Because the computer has memory capacity and logic judgment capacity, people can bring a pre-programmed program group into the memory of the computer, and the computer can continuously and automatically work under the control of the program without human intervention.

Disclosure of Invention

According to one aspect of the present invention there is provided a computer information storage method, the method comprising using a computer information storage mechanism to implement a large area detection process for a license plate for a traffic violation using an aerial photography identification mode, the computer information storage mechanism comprising:

the computer structure comprises a processor, a memory, an input/output interface and a data bus, is arranged at the position of a traffic control department and is used for receiving and storing one or more restricted violation numbers uploaded by the signal uploading equipment;

the radio frequency receiver is used for receiving aerial photographing signals from an aerial photographing device through a wireless communication link, and the aerial photographing device is provided with aerial photographing equipment and is used for performing photographing processing on a lower area to obtain a real-time aerial photographing image;

the OFDM modem is connected with the radio frequency receiver and is used for modulating and demodulating the received aerial photography signal;

the channel source decoder is connected with the OFDM modem and is used for sequentially performing channel decoding and source decoding operations on output data of the OFDM modem so as to obtain a real-time aerial image;

the data analysis equipment is connected with the channel information source decoder and used for identifying each license plate pattern in the real-time aerial image based on the license plate imaging characteristics and respectively executing OCR (optical character recognition) processing on each license plate pattern to obtain each field license plate number;

the violation judging device is connected with the data analyzing device and is used for receiving the field license plate numbers and determining one or more violation numbers in the field license plate numbers based on the current time period;

the signal uploading device is connected with the violation judging device and is used for uploading the one or more restricted violation numbers to the computer system;

the SGRAM storage equipment is used for pre-storing the appearance of the OFDM modem and is also used for pre-storing the appearance of a channel source decoder;

the humidity detection units are respectively arranged inside the channel information source decoder, the arrangement shape of the humidity detection units inside the channel information source decoder is matched with the appearance of the channel information source decoder, and each humidity detection unit is used for sensing the humidity at the position of the humidity detection unit to serve as real-time humidity output;

the temperature detection units are respectively arranged inside the OFDM modem, the arrangement shape of the temperature detection units inside the OFDM modem is matched with the appearance of the OFDM modem, and each temperature detection unit is used for sensing the temperature of the position where the temperature detection unit is located to serve as real-time temperature output;

the humidity analysis equipment is respectively connected with the humidity detection units and used for receiving the real-time humidities output by the humidity detection units and performing weighted average operation on the real-time humidities to obtain an internal humidity reference value;

the temperature analysis equipment is respectively connected with the plurality of temperature detection units and used for receiving the plurality of real-time temperatures respectively output by the plurality of temperature detection units and performing weighted average operation on the plurality of real-time temperatures to obtain an internal temperature reference value;

and the voice playing equipment is respectively connected with the temperature analysis equipment and the humidity analysis equipment, and is used for receiving the internal temperature reference value and the internal humidity reference value and carrying out real-time voice playing on the internal temperature reference value and the internal humidity reference value.

According to another aspect of the present invention, there is also provided a computer-readable storage medium having stored thereon a computer program which, when executed, implements the steps of the computer information storage method as described above.

The invention has at least the following two key points:

(1) a targeted multi-component detection mechanism is set up for the detection of the internal parameters of the equipment, so that the effectiveness and the usability of the internal parameters of the equipment are improved;

(2) by adopting an aerial photography mode and a customized ground communication mechanism, the large-area detection processing of the license plate for traffic control violation is realized, and the speed and the precision of traffic enforcement are improved.

The computer information storage method and the storage medium have wide application and effective data. Because a targeted multi-component detection mechanism is set up for the detection of the internal parameters of the equipment, the effectiveness and the usability of the internal parameters of the equipment are improved, and in addition, an aerial photography mode and a customized ground communication mechanism are adopted, the large-area detection processing of the license plate for traffic control violation is realized, so that the speed and the precision of traffic enforcement are improved.

Detailed Description

Embodiments of the computer information storage method and the storage medium of the present invention will be described in detail below.

Traffic violations are generally traffic violations, i.e. motor vehicles, non-motor vehicle drivers or pedestrians, violating road traffic safety regulations, traffic management and actions affecting traffic conditions. Additionally, a violation may also refer to a violation of conventional regulation handling. Generally, there are 2 main traffic violation fines. Firstly, the bill is opened against the regulations on the spot. And the second is electronic violation record. The field violation billing is usually done by the traffic enforcement officer on-site to take evidence and to issue a penalty decision. Of course, the penalty is also given by the law enforcement officer in urban management, because the vehicle is parked on a sidewalk or a public place without a transportation land, which violates the regulations of urban management and belongs to the jurisdiction of the urban management department.

At present, in a computer structure, a targeted multi-component detection mechanism cannot be built for detecting internal parameters of equipment, so that the effectiveness and the usability of the internal parameters of the equipment are insufficient, and meanwhile, large-area detection processing of a traffic control violation license plate cannot be realized, so that the speed and the precision of traffic enforcement cannot meet the requirements of traffic control departments.

In order to overcome the defects, the invention provides a computer information storage method, which comprises the step of using a computer information storage mechanism to realize large-area detection processing of the license plate for the regulation violation of the traffic regulations by adopting an aerial photography identification mode, wherein the computer information storage mechanism can effectively solve the corresponding technical problems.

A computer information storage mechanism shown according to an embodiment of the present invention includes:

the computer structure comprises a processor, a memory, an input/output interface and a data bus, is arranged at the position of a traffic control department and is used for receiving and storing one or more restricted violation numbers uploaded by the signal uploading equipment;

the radio frequency receiver is used for receiving aerial photographing signals from an aerial photographing device through a wireless communication link, and the aerial photographing device is provided with aerial photographing equipment and is used for performing photographing processing on a lower area to obtain a real-time aerial photographing image;

the OFDM modem is connected with the radio frequency receiver and is used for modulating and demodulating the received aerial photography signal;

the channel source decoder is connected with the OFDM modem and is used for sequentially performing channel decoding and source decoding operations on output data of the OFDM modem so as to obtain a real-time aerial image;

the data analysis equipment is connected with the channel information source decoder and used for identifying each license plate pattern in the real-time aerial image based on the license plate imaging characteristics and respectively executing OCR (optical character recognition) processing on each license plate pattern to obtain each field license plate number;

the violation judging device is connected with the data analyzing device and is used for receiving the field license plate numbers and determining one or more violation numbers in the field license plate numbers based on the current time period;

the signal uploading device is connected with the violation judging device and is used for uploading the one or more restricted violation numbers to the computer system;

the SGRAM storage equipment is used for pre-storing the appearance of the OFDM modem and is also used for pre-storing the appearance of a channel source decoder;

the humidity detection units are respectively arranged inside the channel information source decoder, the arrangement shape of the humidity detection units inside the channel information source decoder is matched with the appearance of the channel information source decoder, and each humidity detection unit is used for sensing the humidity at the position of the humidity detection unit to serve as real-time humidity output;

the temperature detection units are respectively arranged inside the OFDM modem, the arrangement shape of the temperature detection units inside the OFDM modem is matched with the appearance of the OFDM modem, and each temperature detection unit is used for sensing the temperature of the position where the temperature detection unit is located to serve as real-time temperature output;

the humidity analysis equipment is respectively connected with the humidity detection units and used for receiving the real-time humidities output by the humidity detection units and performing weighted average operation on the real-time humidities to obtain an internal humidity reference value;

the temperature analysis equipment is respectively connected with the plurality of temperature detection units and used for receiving the plurality of real-time temperatures respectively output by the plurality of temperature detection units and performing weighted average operation on the plurality of real-time temperatures to obtain an internal temperature reference value;

the voice playing device is respectively connected with the temperature analysis device and the humidity analysis device, and is used for receiving the internal temperature reference value and the internal humidity reference value and carrying out real-time voice playing on the internal temperature reference value and the internal humidity reference value;

wherein the arrangement shape of the plurality of temperature detection units in the OFDM modem is matched with the appearance of the OFDM modem, and the arrangement shape comprises the following steps: and arranging a corresponding temperature detection unit at the centroid position and each vertex position of the outline of the OFDM modem.

Next, a specific configuration of the computer information storage means of the present invention will be further described.

In the computer information storage mechanism:

the arrangement shape of the plurality of humidity detection units in the channel source decoder is matched with the appearance of the channel source decoder, and the arrangement shape comprises the following steps: and respectively arranging a corresponding humidity detection unit at the centroid position and each vertex position of the outline of the channel source decoder.

The computer information storage mechanism may further include:

and the curvature adjusting device is connected with the channel information source decoder and used for receiving the real-time aerial image and executing curvature adjustment on the real-time aerial image so as to reduce each curvature of each curve in the real-time aerial image below a preset curvature threshold value to obtain a curvature adjusting image.

The computer information storage mechanism may further include:

and the content detection device is connected with the curvature adjustment device and used for detecting the maximum target in the curvature adjustment image, taking the area occupied by the maximum target in the curvature adjustment image as a target image area corresponding to the curvature adjustment image, determining the target inclination grade of the curvature adjustment image based on the outline of the target image area and the outline of the curvature adjustment image to be used as an instant target inclination grade, and outputting the instant target inclination grade.

The computer information storage mechanism may further include:

and the signal identification device is connected with the content detection device and used for receiving the instant target inclination grade, sending a second control signal when the instant target inclination grade does not exceed a preset grade threshold value, and sending a first control signal when the instant target inclination grade exceeds the preset grade threshold value.

The computer information storage mechanism may further include:

and the self-adaptive adjusting device is respectively connected with the data analysis device, the signal identification device and the content detection device, and is used for executing circulating target rotation processing on the curvature adjusting image when receiving a first control signal until the instant target gradient grade of the obtained processed image does not exceed a preset grade threshold value, and sending the obtained processed image to the data analysis device as a self-adaptive adjusting image instead of the real-time aerial image.

In the computer information storage mechanism:

the content detection device comprises a content receiving sub-device, a target dividing sub-device, a grade analysis sub-device and a data output sub-device;

wherein, in the content detection device, the content receiving sub-device is configured to receive the curvature adjustment image, and the target segmentation sub-device is connected to the content receiving sub-device and configured to use a region occupied by the maximum target in the curvature adjustment image as a target image region corresponding to the curvature adjustment image.

In the computer information storage mechanism:

in the content detection device, the level analysis sub-device is connected to the target segmentation sub-device and the data output sub-device, respectively, and is configured to determine a target gradient level of the curvature adjustment image as an instantaneous target gradient level based on an outer shape of the target image region and an outer shape of the curvature adjustment image;

wherein the adaptive adjustment device is further configured to output the curvature adjustment image as an adaptive adjustment image upon receiving a second control signal.

Meanwhile, in order to overcome the above disadvantages, the present invention also builds a computer readable storage medium, on which a computer program is stored, and the computer program realizes the steps of the computer information storage method as described above when being executed.

In addition, the SGRAM is an abbreviation of Synchronous Graphics DRAM, which means that the Synchronous Graphics RAM is a video memory specially designed for a video card, is a video memory with stronger Graphics read-write capability, and is formed by improving SDRAM. The method improves the defect of low video memory transmission rate of low performance in the past, and creates conditions for improving the performance of the display card. The SGRAM reads and writes data not one by one, but uses a Block as a unit, thereby reducing the times of reading and writing the whole memory and improving the efficiency of a graphic controller. But the design and manufacturing cost is higher, and more, the display card is applied to higher-end display cards at that time. At present, such a video memory is not adopted by manufacturers and is replaced by a DDR video memory. SDRAM, Synchronous dynamic random access memory DRAM (SDRAM), was once the most widely used memory type in PC computers, and even today SDRAM still has a place in the market. Since it is a "synchronous dynamic random access memory," it means that its operating speed is synchronized with the system bus speed. The SDRAM memory is divided into different specifications of PC66, PC100, PC133, etc., and the number following the specification represents the maximum normal operating system bus speed of the memory, such as PC100, which means that the memory can operate synchronously in a computer with a system bus of 100 MHz. Synchronous with the system bus speed, namely synchronous with the system clock, thus avoiding unnecessary waiting period and reducing data storage time. Synchronization also allows the memory controller to know during which clock period the data is being requested and therefore the data can begin to be transferred during the pulse rise period. SDRAM uses 3.3 volt working voltage, 168Pin DIMM interface, and the bandwidth is 64 bits. SDRAM is not only used in memories, but also in video memories. SDRAM can work with CPU synchronization, does not have the latency cycle, reduces data transmission delay.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: Read-Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disk, and other various media capable of storing program codes.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.