KR20110052190A - Real-time monitoring system of digital cluster - Google Patents

Abstract

PURPOSE: A system for monitoring defects on a digital cluster is provided to prevent an accident by restoring lost information in real time when a digital cluster has defects. CONSTITUTION: A system for monitoring defects on a digital cluster comprises a sensor unit(100), a monitoring unit(300), a defect detection unit(400), and a controller(500). The sensor unit measures the travel information of a vehicle. The monitoring unit monitors the display area of a digital cluster. The defect detection unit detects the defect area of the digital cluster by comparing the travel information detected from the monitoring unit with the travel information measured from the sensor unit. The controller restores the lost information of the display area with defects and outputs the restored information.

Description

Failure detection system of digital cluster {REAL-TIME MONITORING SYSTEM OF DIGITAL CLUSTER}

The present invention relates to a digital cluster, and more particularly, to a failure detection system of a digital cluster for detecting a failure of the digital cluster.

In general, the vehicle is provided with a cluster system to inform the driver of the driving information set, the cluster system displays the overall information of the vehicle, such as mileage, fuel status, external temperature, fuel economy and tire pressure (TPMS).

In recent years, as the digital age opens, cluster systems are being developed in a digital display manner, which increases the functionality and user convenience of the cluster system.

However, if the digital cluster fails, there is no device for detecting the failure of the digital cluster, which poses a threat to safety for the driver, thereby increasing the possibility of an accident.

Even if it detects a defect in the digital cluster while driving, there is no way to repair it in real time, so the driver is driving in anxiety deceleration, which threatens safety.

In order to solve the above problems, an object of the present invention is to provide a failure detection system of a digital cluster that can detect a failure of the digital cluster, and recover and display the lost information of the detected area.

In order to achieve the above object, the failure detection system of the digital cluster of the present invention, the sensor unit for measuring the driving information of the vehicle, the monitoring unit for monitoring the display area of the digital cluster, and the digital cluster display detected from the monitoring unit And a defect detection unit for detecting a defective area of the digital cluster by comparing the driving information of the area with the driving information measured by the sensor unit, and a controller for recovering and outputting lost information of the display area in which the defect is detected.

If the measured defective area is a part of the digital cluster, the lost information may be rearranged and displayed on the digital cluster through image conversion.

If the measured defective area is the entire area of the digital cluster, the restored driving information may be output to a separate output device.

The output device may be an electronic product connected through a navigation, vehicle audio, or wired or wireless network.

The monitoring unit and the failure detection unit may be provided in the TFTs in the digital cluster to monitor the display area and detect failures using the TFT array information.

The monitoring unit may be formed to correspond to a plurality of storage capacitors formed in the TFT, and the plurality of storage capacitors and the monitoring unit may be connected to the failure detection unit.

The monitoring unit may be installed in front of the digital cluster to monitor using image information of the digital cluster.

The defect detector may detect a defect based on color difference information of an image input from the monitoring unit.

According to the present invention, by providing a detection unit that detects a defect of the digital cluster, there is an effect that it is possible to prevent threatening the driver by the defect of the digital cluster.

In addition, when the failure of the digital cluster occurs, the present invention has the effect of preventing the occurrence of an accident by recovering and outputting the information lost by the failure in real time.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Like reference numerals in the drawings refer to like elements.

1 is a block diagram illustrating a failure detection system of a digital cluster according to the present invention, FIG. 2 is a view illustrating an internal TFT of a digital cluster according to the present invention, and FIGS. 3 to 7 are failures of a digital cluster according to the present invention. 8 is a flowchart illustrating a failure detection system of the digital cluster according to the present invention, and FIG. 9 and FIG. 10 are detailed operations of the failure detection system of the digital cluster according to the present invention. It is a diagram showing.

Referring to FIG. 1, a failure detection system for a digital cluster according to the present invention includes a sensor unit 100 for measuring a driving state of a vehicle, a monitoring unit 300 for monitoring the digital cluster 200, and the digital cluster display. The defect detection unit 400 which detects a defective area of the digital cluster 200 by comparing the driving information of the area with the driving information measured by the sensor unit 100, and recovers lost information of the display area in which the failure is detected. And a control unit 500 for outputting.

Sensor unit 100 is provided in each area in the vehicle to measure the driving state of the vehicle, the sensor unit 100 is an engine torque sensor 120 for measuring the normal engine torque, fuel amount sensor 140 for measuring the fuel amount ), A gravity acceleration sensor 160 and an electronic control unit (ECU) 180 connected to the respective components may be included. Of course, the number of sensors measuring the driving state of the vehicle is not limited thereto, and sensors mounted on the vehicle such as a temperature sensor and a tire air pressure sensor may be used.

The digital cluster 200 is installed in front of the driver's seat of the vehicle to inform the driver of the vehicle's vehicle information. As the digital cluster 200, various display devices such as a liquid crystal display (LCD), a plasma display panel (PDP), and an LED device may be used to display driving information digitally.

When a failure occurs in the digital cluster 200, a monitoring unit 300 is provided to monitor an area displayed by the digital cluster 200, and the monitoring unit 300 includes an error detection sensor provided in the digital cluster. (Error Detect Cell, EDC, 340) or the camera 320.

When the error detection sensor 340 is used as the monitoring unit 300, as shown in FIG. 2, the error detection sensor 340 may be installed in a TFT array inside the digital cluster 200, which is an LCD device. ) May be installed to correspond to a storage capacitor (SC). That is, the storage capacitor SC simultaneously stores the gate scan signal and the data input signal until the next signal arrives, thereby storing the storage capacitor SC value and the error detection sensor 340 value. In comparison, a defect can be detected.

The comparison between the value of the storage capacitor SC and the error detection sensor 340 is made in the failure detection unit 400 to which the storage capacitor SC and the error detection sensor 340 are connected. As a result, the failure detection unit 400 is digital. The failure of a cluster can be detected. Here, all the storage capacitors SC and the error detection sensor 340 may be connected to receive the TFT array information in a serial manner.

Therefore, it is possible to monitor whether the driving information measured from the sensor unit 100 is correctly displayed in each area of the digital cluster 200. Here, the error detection sensor 340 is illustrated as being present in each TFT array, but is not limited thereto and may be partially distributed with a ratio.

Referring to the failure detection method according to the structure, as shown in FIG. 3, the failure detection unit 400 performs reference gator enable and input data with TFT array information, that is, a synchronization signal and image data input from the LCD controller. It generates and transmits the result to the comparator 440, and compares the value transmitted from the LCD module with the value transmitted from the reference data generator, and transmits the defective data value and the value of the region where the defective data occurred to the defective region position generator 460. With the information about the transmitted defective data, the defective region location information such as the defective data position or the defective data region range can be measured.

In addition, as shown in FIG. 4, the gator enable signal transmitted from the timing controller and the error detection enable value from the error detection sensor are compared, and the input data and the error detection input value are compared with each other in the comparator 440. After the information is transmitted to the defective area location generator 460, the defective area location information such as the bad data location or the bad data area range may be measured with the information about the bad data.

In addition, as shown in FIG. 5, the gate enable signal and the data signal in the LCD module are transmitted to the comparator 440, and the position information of the defective pixel is transmitted to the defective region location generator 460. The defective data value is transmitted to the defective area position generator 460 by comparing the pixel value transmitted from the LCD module with the value transmitted from the reference data generator 420. Then, the defective area location information such as the defective data location or the defective data area range can be measured with the information about the transmitted defective data.

On the other hand, when the camera 320 is used as the monitoring unit 300, the camera 320 may be installed in the driver's seat dashboard, thereby photographing the entire area of the digital cluster 200. Of course, a plurality of cameras 320 may be installed to face the digital cluster 200, and may photograph each region of the digital cluster 200.

As a result, the failure detection unit 400 may detect both the Y component and the Cb / Cr component among the YCbCr of the image captured by the camera 320, and may be detected using only the Y component or only the Cb and Cr components. . In the case of an RGB image, this method can select and use information of the image to be transferred so that each color element can be integrated or individually used, thereby reducing the amount of computation and memory required for processing.

As illustrated in FIG. 6, a failure of a luminance edge value may be detected from the surveillance area 220 of the image of the digital cluster 200 input to the camera. As illustrated in FIG. Defects can be detected with the difference information. That is, the size of the area is defined by setting the horizontal size of the monitoring area 220 as X and the vertical size as Y, and the color difference information of the area is summed and compared with the normal case.

As described above, when the defective area of the digital cluster is detected from the defective detecting unit, the control unit receives the information of the display area in which the defective is detected from the sensor unit 100, and from this, the video / audio conversion device 700 and the output control device ( Through 800, the digital cluster 200 or a separate output device 600, for example, the screen output device 620, the audio output device 640, wired / wireless network device 660 to relocate or recover the lost information You can print Here, the navigation may be used as the separate screen output device 620, the vehicle audio may be used as the sound output device 640, and a mobile phone or a PMP may be used as the wired / wireless network 660.

Hereinafter, an operation of a failure detection system of a digital cluster according to the present invention will be described with reference to FIGS. 8 to 10.

As shown in FIG. 8, first, when failure information of the digital cluster display area is collected (S100), it is determined whether a failure area has occurred (S110).

Subsequently, when it is determined that the defective area is generated, the detected position, range, and information of the detected defective area are detected (S120), and the step of determining whether the entire digital cluster area is defective (S130) is performed. If it is determined that the entire area of the digital cluster is defective, the information on the defective area is converted (S140), and as shown in FIG. The screen output device 620, the audio output device 640, or the wired / wireless network device 660 may be output (S150).

On the other hand, if it is determined that the whole of the digital cluster is not defective, it is determined that some regions of the digital cluster are defective, and as shown in FIG. By performing the step (S170) of outputting the lost information to the digital cluster to complete the failure detection operation of the digital cluster.

Although described above with reference to the drawings and embodiments, those skilled in the art that the present invention can be variously modified and changed within the scope without departing from the spirit of the invention described in the claims below I can understand.

1 is a block diagram showing a failure detection system of a digital cluster according to the present invention.

2 illustrates an internal TFT of a digital cluster according to the present invention.

3 to 7 are diagrams illustrating an operation of detecting a failure of a failure detection system of a digital cluster according to the present invention.

8 is a flowchart illustrating a failure detection system of a digital cluster according to the present invention.

9 and 10 illustrate detailed operations of a failure detection system of a digital cluster according to the present invention.

             <Description of the code | symbol about the principal part of drawings>

100: sensor unit 200: digital cluster

300: monitoring unit 320: camera

340: error detection sensor 400: failure detection unit

500: control unit 600: output device

700: video / audio inverter 800: output controller

Claims (8)

A sensor unit measuring driving information of the vehicle; A monitoring unit for monitoring a display area of the digital cluster; A defect detection unit for detecting a defective area of the digital cluster by comparing the driving information of the digital cluster display area detected by the monitoring unit with the driving information measured by the sensor unit; And A control unit for recovering and outputting lost information of the display area in which the defect is detected; Failure detection system of a digital cluster comprising a. The method according to claim 1, And if the measured defective area is a part of the digital cluster, relocating the lost information to the digital cluster through image conversion to display the lost information. The method according to claim 1, And outputting the restored driving information to a separate output device if the measured defective area is the entire area of the digital cluster. The method of claim 3, The output device is a failure detection system of a digital cluster, which is an electronic product connected to a navigation, car audio, or wired or wireless network. The method according to claim 1, And the monitoring unit and the failure detecting unit are provided in the TFTs in the digital cluster to monitor and display the display area using TFT array information. The method according to claim 5, The monitoring unit is formed to correspond to the plurality of storage capacitors formed in the TFT, the plurality of storage capacitors and the monitoring unit is a failure detection system of the digital cluster connected to the failure detection unit. The method according to claim 1, The monitoring unit is installed in front of the digital cluster failure detection system of the digital cluster for monitoring by using the image information of the digital cluster. The method of claim 7, The failure detection unit of the digital cluster failure detection system for detecting a failure by the color difference information of the image input from the monitoring unit.

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