CN111046712A - High-brightness data display mechanism - Google Patents

Abstract

The invention relates to a highlight data display mechanism, comprising: the display driving device is connected with a liquid crystal display screen in a central control panel of the automobile and used for carrying out red highlighting on text information corresponding to the stone identification instruction when the stone identification instruction is received; and the display driving equipment is also used for stopping red highlighting of the text information corresponding to the stone recognition instruction when the top safety instruction is received. The highlight data display mechanism is reliable in design, safe and effective. When the stone target with the depth of field value smaller than or equal to the preset depth of field threshold value exists in the customized image, a stone recognition instruction is sent out and the driver is reminded in time, so that accidents caused by the fact that the stone is hit in landslide or earthquake disasters are avoided.

Description

High-brightness data display mechanism

Technical Field

The invention relates to the field of display equipment, in particular to a highlight data display mechanism.

Background

Steering means steering a vehicle, a ship, an airplane, or the like to travel. The automobile is convenient to control the direction when driving, and because the road is arc-shaped, the middle is high and the two sides are low under the general condition, the automobile can deviate to the right when driving on the middle and right, and the straight-going direction of the automobile can be controlled only by slightly leaning the free stroke of the steering wheel to the left by the left hand; the automobile driving is beneficial to meeting and overtaking: the vehicle can drive to the roadside at a smaller angle and lay the vehicle flat, so that the vehicle can make a sharp turn: turning left and right with reference to a one-way road.

At present, the automobiles which often run in the mountainous area lack necessary safety protection measures, so that accidents caused by stones during landslide or earthquake disasters occur, and great personal casualties or economic losses are brought.

Disclosure of Invention

The invention at least needs to have the following two key points:

(1) at present, due to the lack of necessary safety protection measures for automobiles frequently running in mountainous areas, accidents caused by being hit by stones occur in landslide or earthquake disasters, and great personal casualties or economic losses are brought, therefore, a related stone detection mechanism is built on the top of the automobile, so that when a stone target with the depth of field value smaller than or equal to a preset depth of field threshold value exists in a customized processed image, a stone identification instruction is sent out, a driver is reminded in time, and the driver can take corresponding measures to keep away from dangerous zones conveniently;

(2) different filtering processes are respectively performed on the cyan component sub-image, the magenta component sub-image, the yellow component sub-image and the black component sub-image of the image, so that different image processes are performed on the color components based on different component characteristics, and the image processing effect is improved.

According to an aspect of the present invention there is provided a highlighted data display mechanism, the mechanism comprising:

the display driving device is connected with a liquid crystal display screen in a central control panel of the automobile and used for carrying out red highlighting on text information corresponding to the stone identification instruction when the stone identification instruction is received;

the display driving device is further used for stopping red highlighting of text information corresponding to the stone recognition instruction when a top safety instruction is received;

the full-color capturing device is arranged at the top of the automobile and used for carrying out full-field image capturing processing right above the automobile so as to obtain a corresponding image above the automobile body;

the resolution analyzing equipment is connected with the full-color capturing equipment and is used for receiving the image above the vehicle body and carrying out field analysis operation on the resolution of the image above the vehicle body so as to obtain and output a corresponding field resolution;

the grade identification device is connected with the resolution analysis device and used for receiving the field resolution, determining a resolution grade which is in direct proportion to the field resolution and outputting the resolution grade;

the power management equipment is connected with the grade identification equipment and used for recovering power supply to the wiener filtering equipment, the homomorphic filtering equipment, the median filtering equipment and the Gaussian filtering equipment when the received resolution grade exceeds the limit;

the system comprises a resolution analysis device, a wiener filtering device and a resolution analysis device, wherein the resolution analysis device is used for analyzing the image above the vehicle body, and the wiener filtering device is used for receiving the image above the vehicle body and executing wiener filtering processing on a cyan component sub-image formed by cyan components of each pixel point in the image above the vehicle body to obtain a cyan filtering image;

homomorphic filtering equipment for receiving the image above the vehicle body and executing homomorphic filtering processing on a magenta component sub-image formed by magenta components of each pixel point in the image above the vehicle body to obtain a magenta filtered image;

the median filtering device is used for receiving the image above the vehicle body and executing median filtering processing on a yellow component sub-image formed by yellow components of each pixel point in the image above the vehicle body to obtain a yellow filtering image;

the Gaussian filtering device is used for receiving the image above the vehicle body and performing Gaussian filtering processing on a black component sub-image formed by each black component of each pixel point in the image above the vehicle body to obtain a black filtering image;

the superposition processing device is respectively connected with the wiener filtering device, the homomorphic filtering device, the median filtering device and the Gaussian filtering device and is used for carrying out superposition processing on the cyan filtering image, the magenta filtering image, the yellow filtering image and the black filtering image so as to obtain a superposition processing image;

the stone recognition device is connected with the superposition processing device and used for receiving the superposed images and sending a stone recognition instruction when a stone target with a depth of field value smaller than or equal to a preset depth of field threshold value exists in the superposed images, otherwise, sending a top safety instruction;

wherein the power management device is configured to cut off power supply to the wiener filter device, the homomorphic filter device, the median filter device, and the gaussian filter device when the received resolution level is not exceeded.

The highlight data display mechanism is reliable in design, safe and effective. When the stone target with the depth of field value smaller than or equal to the preset depth of field threshold value exists in the customized image, a stone recognition instruction is sent out and the driver is reminded in time, so that accidents caused by the fact that the stone is hit in landslide or earthquake disasters are avoided.

Drawings

Embodiments of the invention will now be described with reference to the accompanying drawings, in which:

fig. 1 is a view showing an application scenario of a highlight data display mechanism according to an embodiment of the present invention.

Detailed Description

An embodiment of the highlight data display mechanism of the present invention will be described in detail below with reference to the accompanying drawings.

In order to overcome the defects, the invention builds a high-brightness data display mechanism, and can effectively solve the corresponding technical problem.

Fig. 1 is a view showing an application scenario of a highlight data display mechanism according to an embodiment of the present invention. Where 1 is a full-color capture device, and 2 is a mounting assembly that mounts the full-color capture device to the roof of an automobile.

A highlighted data display mechanism shown according to an embodiment of the present invention includes:

the display driving device is connected with a liquid crystal display screen in a central control panel of the automobile and used for carrying out red highlighting on text information corresponding to the stone identification instruction when the stone identification instruction is received;

the display driving device is further used for stopping red highlighting of text information corresponding to the stone recognition instruction when a top safety instruction is received;

the full-color capturing device is arranged at the top of the automobile and used for carrying out full-field image capturing processing right above the automobile so as to obtain a corresponding image above the automobile body;

the resolution analyzing equipment is connected with the full-color capturing equipment and is used for receiving the image above the vehicle body and carrying out field analysis operation on the resolution of the image above the vehicle body so as to obtain and output a corresponding field resolution;

the grade identification device is connected with the resolution analysis device and used for receiving the field resolution, determining a resolution grade which is in direct proportion to the field resolution and outputting the resolution grade;

the power management equipment is connected with the grade identification equipment and used for recovering power supply to the wiener filtering equipment, the homomorphic filtering equipment, the median filtering equipment and the Gaussian filtering equipment when the received resolution grade exceeds the limit;

the system comprises a resolution analysis device, a wiener filtering device and a resolution analysis device, wherein the resolution analysis device is used for analyzing the image above the vehicle body, and the wiener filtering device is used for receiving the image above the vehicle body and executing wiener filtering processing on a cyan component sub-image formed by cyan components of each pixel point in the image above the vehicle body to obtain a cyan filtering image;

homomorphic filtering equipment for receiving the image above the vehicle body and executing homomorphic filtering processing on a magenta component sub-image formed by magenta components of each pixel point in the image above the vehicle body to obtain a magenta filtered image;

the median filtering device is used for receiving the image above the vehicle body and executing median filtering processing on a yellow component sub-image formed by yellow components of each pixel point in the image above the vehicle body to obtain a yellow filtering image;

the Gaussian filtering device is used for receiving the image above the vehicle body and performing Gaussian filtering processing on a black component sub-image formed by each black component of each pixel point in the image above the vehicle body to obtain a black filtering image;

the superposition processing device is respectively connected with the wiener filtering device, the homomorphic filtering device, the median filtering device and the Gaussian filtering device and is used for carrying out superposition processing on the cyan filtering image, the magenta filtering image, the yellow filtering image and the black filtering image so as to obtain a superposition processing image;

the stone recognition device is connected with the superposition processing device and used for receiving the superposed images and sending a stone recognition instruction when a stone target with a depth of field value smaller than or equal to a preset depth of field threshold value exists in the superposed images, otherwise, sending a top safety instruction;

wherein the power management device is configured to cut off power supply to the wiener filter device, the homomorphic filter device, the median filter device, and the gaussian filter device when the received resolution level is not exceeded.

Next, a specific configuration of the highlight data display means of the present invention will be further described.

The highlight data display mechanism comprises:

the wiener filtering device, the homomorphic filtering device, the median filtering device and the Gaussian filtering device are respectively realized by SOC chips with different models.

The highlight data display mechanism comprises:

and integrating the wiener filtering device, the homomorphic filtering device, the median filtering device and the Gaussian filtering device on the same printed circuit board.

The highlight data display mechanism may further include:

and the shell detection equipment is connected with the resolution analysis equipment, arranged on the shell of the resolution analysis equipment and used for executing detection action on the pressure born by the shell of the resolution analysis equipment so as to obtain a corresponding shell pressure value.

The highlight data display mechanism may further include:

and the side face detection device is arranged on one side of the resolution analysis device and positioned on the shell of the grade identification device and is used for executing detection action on the pressure born by the shell of the grade identification device so as to obtain a corresponding side face pressure value.

The highlight data display mechanism may further include:

the infrared analysis device comprises an infrared transmitting unit, an infrared receiving unit and a GAL device, wherein the infrared receiving unit and the GAL device are arranged on the shell detection device, the infrared transmitting unit is arranged on the side detection device, and the infrared analysis device is used for determining the distance between the shell detection device and the side detection device based on the interval time of the infrared transmitting unit transmitting infrared signals and the infrared receiving unit receiving infrared signals to be output as a device interval.

The highlight data display mechanism may further include:

and the data setting equipment is connected with the infrared analysis equipment and is used for determining the influence factor of the shell pressure value of the shell detection equipment and the influence factor of the side pressure value of the side detection equipment based on the equipment distance.

The highlight data display mechanism may further include:

and the parameter output equipment is connected with the data setting equipment and is used for estimating the equipment internal pressure of the resolution analysis equipment based on the shell pressure value, the influence factor of the shell pressure value, the side pressure value and the influence factor of the side pressure value.

The highlight data display mechanism may further include:

a GPRS communication interface connected with the data setting device and used for requesting a configuration strategy from a configuration server through a GPRS communication network to obtain an encrypted configuration strategy and decrypting the encrypted configuration strategy;

wherein, in the GPRS communication interface, the configuration policy is configured to determine an impact factor for a shell pressure value of the shell detection device and an impact factor for a side pressure value of the side detection device based on the device separation.

In addition, General Packet Radio Service (generic Packet Radio Service) is a mobile data Service available to GSM mobile phone users. GPRS is said to be a continuation of GSM. GPRS is different from the conventional method of continuous channel transmission in that it is transmitted in Packet (Packet) mode, so the cost of the user is calculated in units of the data to be transmitted, rather than using the entire channel, and is theoretically cheaper. The transmission rate of GPRS can be increased to 56 or even 114 Kbps.

GPRS is often described as "2.5G", meaning that the technology is located between second generation (2G) and third generation (3G) mobile communication technologies. He provides moderate data transfer by utilizing unused TDMA channels in the GSM network. GPRS breaks through the thinking that GSM networks can only provide circuit switching, and packet switching is implemented only by adding corresponding functional entities and partially modifying the existing base station system, which is relatively inexpensive in investment, but the obtained user data rate is considerable. Furthermore, connection and transmission are facilitated since the intermediate switches required by current wireless applications are no longer required. Therefore, the user can not only online and participate in interactive transmission of video conferences, but also the user on the same video network (VRN) can continuously connect with the network without dialing the network.

GPRS packet-switched communication in the packet-switched communication mode, data is divided into packets of a certain length, each packet being preceded by a packet header (where the address tag indicates where the packet is destined). The channel is not required to be allocated in advance before the data is transmitted, and the connection is established. Instead, upon the arrival of each packet, an available channel resource is temporarily sought to transmit the datagram based on information in the data header (e.g., destination address). In this transmission method, there is no fixed occupation relationship between the sending and receiving sides of data and the channel, and the channel resources can be regarded as being shared by all users. Since data services exhibit a bursty service characteristic in most cases and the demand for channel bandwidth varies greatly, packet-based data transmission can make better use of channel resources. For example, a user browsing the WWW is most of the time in the browsing state, while the time actually used for data transfer is only a small percentage. In this case, if the channel is fixedly occupied, a large amount of resources will be wasted.

It should be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above embodiments, the various steps or methods may be implemented in software or firmware stored in memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, any one or combination of the following techniques, which are known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.

It will be understood by those skilled in the art that all or part of the steps carried by the method for implementing the above embodiments may be implemented by hardware related to instructions of a program, which may be stored in a computer readable storage medium, and when the program is executed, the program includes one or a combination of the steps of the method embodiments.

The storage medium mentioned above may be a read-only memory, a magnetic or optical disk, etc. Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (9)

1. A highlighted data display mechanism characterized in that said mechanism comprises:

the display driving device is connected with a liquid crystal display screen in a central control panel of the automobile and used for carrying out red highlighting on text information corresponding to the stone identification instruction when the stone identification instruction is received;

the display driving device is further used for stopping red highlighting of text information corresponding to the stone recognition instruction when a top safety instruction is received;

the full-color capturing device is arranged at the top of the automobile and used for carrying out full-field image capturing processing right above the automobile so as to obtain a corresponding image above the automobile body;

the resolution analyzing equipment is connected with the full-color capturing equipment and is used for receiving the image above the vehicle body and carrying out field analysis operation on the resolution of the image above the vehicle body so as to obtain and output a corresponding field resolution;

the grade identification device is connected with the resolution analysis device and used for receiving the field resolution, determining a resolution grade which is in direct proportion to the field resolution and outputting the resolution grade;

the power management equipment is connected with the grade identification equipment and used for recovering power supply to the wiener filtering equipment, the homomorphic filtering equipment, the median filtering equipment and the Gaussian filtering equipment when the received resolution grade exceeds the limit;

the system comprises a resolution analysis device, a wiener filtering device and a resolution analysis device, wherein the resolution analysis device is used for analyzing the image above the vehicle body, and the wiener filtering device is used for receiving the image above the vehicle body and executing wiener filtering processing on a cyan component sub-image formed by cyan components of each pixel point in the image above the vehicle body to obtain a cyan filtering image;

homomorphic filtering equipment for receiving the image above the vehicle body and executing homomorphic filtering processing on a magenta component sub-image formed by magenta components of each pixel point in the image above the vehicle body to obtain a magenta filtered image;

the median filtering device is used for receiving the image above the vehicle body and executing median filtering processing on a yellow component sub-image formed by yellow components of each pixel point in the image above the vehicle body to obtain a yellow filtering image;

the Gaussian filtering device is used for receiving the image above the vehicle body and performing Gaussian filtering processing on a black component sub-image formed by each black component of each pixel point in the image above the vehicle body to obtain a black filtering image;

the superposition processing device is respectively connected with the wiener filtering device, the homomorphic filtering device, the median filtering device and the Gaussian filtering device and is used for carrying out superposition processing on the cyan filtering image, the magenta filtering image, the yellow filtering image and the black filtering image so as to obtain a superposition processing image;

the stone recognition device is connected with the superposition processing device and used for receiving the superposed images and sending a stone recognition instruction when a stone target with a depth of field value smaller than or equal to a preset depth of field threshold value exists in the superposed images, otherwise, sending a top safety instruction;

wherein the power management device is configured to cut off power supply to the wiener filter device, the homomorphic filter device, the median filter device, and the gaussian filter device when the received resolution level is not exceeded.

2. The highlighted data display mechanism according to claim 1, wherein:

the wiener filtering device, the homomorphic filtering device, the median filtering device and the Gaussian filtering device are respectively realized by SOC chips with different models.

3. The highlighted data display mechanism according to claim 2, wherein:

and integrating the wiener filtering device, the homomorphic filtering device, the median filtering device and the Gaussian filtering device on the same printed circuit board.

4. A highlighted data display mechanism according to claim 3, characterized in that the mechanism further comprises:

and the shell detection equipment is connected with the resolution analysis equipment, arranged on the shell of the resolution analysis equipment and used for executing detection action on the pressure born by the shell of the resolution analysis equipment so as to obtain a corresponding shell pressure value.

5. The highlighted data display mechanism according to claim 4, wherein the mechanism further comprises:

and the side face detection device is arranged on one side of the resolution analysis device and positioned on the shell of the grade identification device and is used for executing detection action on the pressure born by the shell of the grade identification device so as to obtain a corresponding side face pressure value.

6. The highlighted data display mechanism according to claim 5, wherein the mechanism further comprises:

the infrared analysis device comprises an infrared transmitting unit, an infrared receiving unit and a GAL device, wherein the infrared receiving unit and the GAL device are arranged on the shell detection device, the infrared transmitting unit is arranged on the side detection device, and the infrared analysis device is used for determining the distance between the shell detection device and the side detection device based on the interval time of the infrared transmitting unit transmitting infrared signals and the infrared receiving unit receiving infrared signals to be output as a device interval.

7. The highlighted data display mechanism according to claim 6, wherein the mechanism further comprises:

and the data setting equipment is connected with the infrared analysis equipment and is used for determining the influence factor of the shell pressure value of the shell detection equipment and the influence factor of the side pressure value of the side detection equipment based on the equipment distance.

8. The highlighted data display mechanism according to claim 7, wherein the mechanism further comprises:

and the parameter output equipment is connected with the data setting equipment and is used for estimating the equipment internal pressure of the resolution analysis equipment based on the shell pressure value, the influence factor of the shell pressure value, the side pressure value and the influence factor of the side pressure value.

9. The highlighted data display mechanism according to claim 8, wherein the mechanism further comprises:

a GPRS communication interface connected with the data setting device and used for requesting a configuration strategy from a configuration server through a GPRS communication network to obtain an encrypted configuration strategy and decrypting the encrypted configuration strategy;

wherein, in the GPRS communication interface, the configuration policy is configured to determine an impact factor for a shell pressure value of the shell detection device and an impact factor for a side pressure value of the side detection device based on the device separation.

Images