KR20090037575A - Camera using dmb transmission - Google Patents

Abstract

A DMB transmission camera apparatus is provided to transmit a photographed image to an image output apparatus through DMB(Digital Multimedia Broadcasting) instead of a cable, thereby removing noise in image output. A DMB receiver(400) receives a DMB image signal transmitted from a DMB transmitter. A camera module(200) photographs an image adjacent to a car. The photographed image is converted into digital data, 8 bit RGB(Red, Green, Blue) data. The converted digital data is transmitted to an MPEG(Moving Picture Experts Group)-4 encoder inside the DMB transmitter. The DMB receiver receives and monitors an image photographed by the camera module and transmitted by a DMB signal. The DMB transmitter wirelessly transmits an image signal outputted from the camera module according to DMB output.

Description

Camera using DMB transmission

The present invention relates to a DMB transmission camera device.

In general, the vehicle is equipped with a rearview mirror and a left / right side mirror, and the rear view is identified through the rearview mirror when the vehicle is reversed or parked. However, when the rearview of the car is identified through the room mirror, there is a blind spot, so there is a risk of collision when parking or reversing.

In other words, when the vehicle is driving, it is often necessary to reverse the vehicle. At this time, the driver cannot get off at the rear of the vehicle, so the driver gets off to check the subject behind the vehicle. In some cases, or a person other than the driver has to stand behind to confirm, there is a problem that causes a lot of inconvenience in the reverse of the vehicle and a problem that causes contact accidents or safety accidents. Therefore, there is a need for a vehicle camera module, which is a rear and peripheral monitoring device for preventing a safety accident such as a contact accident by easily checking a subject in a rear and surrounding blind spot when the vehicle is reversed.

In the case of the vehicle camera module, as shown in FIG. 1, an analog signal (NTSC composite signal) is output from the vehicle camera module 100 to transmit an image through a cable 102 to an image output device 104 (monitor). do.

However, as shown in FIG. 1, as the cable 102 connected between the vehicle camera module 100 and the image output device 104 becomes longer, the image output is lost, and the image is generated by the noise voltage introduced into the cable 102. There is a problem that noise occurs in the output, and there is a problem in that output from a plurality of vehicle camera modules installed at different positions (eg, front, rear, side, etc.) of the vehicle cannot be used by only one image output device (monitor). In addition, there are installation limitations and design element weaknesses due to the cable 102, and may cause a failure due to poor insulation / disconnection / short circuit during use.

An object of the present invention is to transmit the video signal output from the camera module to the video output device without a cable.

The present invention includes a camera module for converting a photographed optical signal into digital image data and outputting the digital signal, and a DMB transmitter for converting the digital image data into an RF signal conforming to the DMB communication standard.

In addition, the camera module includes a lens for condensing the optical signal of the surroundings, and an image sensor for converting the optical signal incident through the lens into digital data of the RGB data and outputs.

The digital image data may be 8-bit RGB data.

The DMB transmitter may receive an MPEG-4 encoder that receives the digital image data, encodes it into an MPEG-4 format, and outputs the video stream; and a BIFS signal, which is a signal that determines the order of the video stream output from the MPEG-4 encoder. A BIFS generation unit for generating, an SL packetizer for receiving the video stream and the BIFS signal and synchronizing packets and outputting them as a video SLP, and MPEG having a DVB-ASI standard for receiving a video without a synchronization signal from a DMB receiver A TS converter for converting and outputting a -2 transport stream (TS), a coded orthogonal frequency division multiplex (COFDM) modulator for modulating the MPEG-2 transport stream into an RF signal of a DMB communication standard, and the COFDM modulation A power amplifier for amplifying the RF signal converted by the negative, and the radio frequency radiation of the amplified RF signal includes a DMB antenna.

In addition, the power amplifier, characterized in that the low output power amplifier to amplify to have a low output, the MPEG-4 encoder, characterized in that to reduce the resolution of the received digital image data to 1/2 to compress to MPEG-4 format do.

The DMB receiver may include a DMB terminal and a DMB navigation device provided in the vehicle to enable DMB reception. The camera module is installed at least one of the front, rear, side of the vehicle, characterized in that for taking images of the surrounding of the vehicle.

The present invention has the effect of solving the noise problem of the image output by the conventional cable by transmitting the image captured by the camera module to the image output device by DMB transmission without the cable. In addition, it is effective to simultaneously receive images captured by a plurality of camera modules by the DMB communication to reproduce and display in one image output device.

Hereinafter, the detailed description of the preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the reference numerals to the components of the drawings it should be noted that the same reference numerals as possible even if displayed on different drawings.

2 is a perspective view of a DMB transmission camera apparatus according to an embodiment of the present invention, and FIG. 3 is a block diagram of the DBM transmission camera apparatus.

Whereas a conventional vehicle camera module transmits an analog video signal to a video output device through a cable, the present invention transmits a digital video signal from the camera module 200 to the DMB transmitter 300, the DMB transmitter 300 The DMB modulator 350 converts it to meet the DMB wireless standard and outputs the same through the DMB antenna 304. The DMB receiver 400 receives the DMB video signal transmitted from the DMB transmitter 300 and delivers the same to the video output device of the vehicle. That is, the present invention converts the image output captured by the camera module 200 installed in the front, rear, side of the vehicle to DMB transmission to output from the DMB transmitter 300, by minimizing only the video output portion of the DMB transmitter 300 Camera module with low power DMB transmitter.

The camera module 200 of the present invention, at least one of the front, rear, side of the vehicle is installed to capture the image around the vehicle. The camera module 200 includes a lens 202 for condensing an optical signal of the surroundings, and an image sensor 204 for converting the optical signal incident through the lens into digital data of RGB data and outputting the digital data. The image is converted into digital data which is 8-bit RGB data by the image sensor 204 and transmitted to the MPEG-4 encoder in the DMB transmitter.

In general, since the DMB receiver 400 has a generalized DMB navigation, a mobile phone, a PDA, a DMB dedicated terminal, etc. in a vehicle, the image captured by the camera module 200 and transmitted as a DMB signal can be conveniently used anytime and anywhere. 400 to receive and monitor. In addition, it is resistant to noise by using a digital transmission path. Therefore, if the DMB receiver 400 in the vehicle receives the video signal output from the camera module 200 in accordance with the DMB output by the DMB transmitter 300, the plurality of images can be viewed on the plurality of output media. It is possible to implement the front and rear and side monitoring system of the revolutionary vehicle.

The DMB transmitter 300 of the present invention requires only a minimum component block for wirelessly radiating through the DMB antenna 304 by DMB-modulating the digital video signal output from the camera module. However, in the case of a general DMB transmitter, all multimedia data such as voice, video, text, and the like are processed, which is complicated in configuration and high in power consumption. That is, in the case of a general DMB transmitter, EUREKA-147: Rec. ITU-R BS. To comply with all aspects of 1114 System A, the size and size of the DMB transmitter is so large that it is not possible to configure it as a small transmitter. For example, in the case of a microwave digital radio broadcast transmitter, which is a type of the conventional DMB transmitter shown in FIG. 4, each function is used to process multiple control data, service information, audio service, data service, and multiplexed video stream. Because of the need for blocks, due to their size and size, there is a problem that can not be applied to the DMB transmitter of the present invention used in the vehicle camera module.

DMB transmitter of the present invention has a feature that has a minimum function to transmit the video signal output from the vehicle camera module as a DMB signal. To this end, the DMB transmitter converts the image data into a video stream and outputs the DMB. This will be described in detail with reference to FIG. 5.

5 is a detailed block diagram of a DMB transmitter according to an embodiment of the present invention.

In general, terrestrial digital multimedia broadcasting (DMB) uses a transport packet structure of the MPEG-2 system layer. In order to transmit a packet of a predetermined size, a broadcast program, that is, broadcast content, is divided into individual streams of a packetized elementary stream (PES) structure, such as audio and video, according to a service, which is then multiplexed into a packet of a constant size. However, since the present invention requires only the video image, the present invention is implemented as a DMB transmitter 300 that outputs only a video stream.

The DMB transmitter consists of a DMB modulator 350 and a DMB antenna 304. The DMB modulator 350 includes an MPEG4-encoder 302, a BIFS generator 304, an SL packetizer 306, and a TS converter. 308, a COFDM 310, and a power amplifier 312.

Referring to the present invention based on the configuration block, the image captured by the camera module 200 is digitized by the image sensor is input to the MPEG-4 encoder 302 in the DMB transmitter 300 as digital data of 8-bit RGB form do. The MPEG-4 encoder 302 receiving the 8-bit RGB digital data is encoded into the MPEG-4 format and output to the SL packetizer 306 as a video stream. The MPEG-4 encoder 302 compresses the input data to reduce the load so as to be miniaturized. For example, the input to an MPEG-4 encoder is input at VGA of 640 * 480 pixels, but the MPEG-4 encoder reduces the resolution to 1/2 and compresses it to 16fps of 320 * 240 pixels, contributing to miniaturization by reducing the load.

Meanwhile, the BIFS generator 304 generates a BIFS signal for determining the order of the video streams output from the MPEG-4 encoder 302 and outputs the BIFS signal to the SL packetizer 306. The Binary Format for Scenes (BIFS) is a part of MPEG-4 technology used to describe a scene description standard for free expression of various multimedia and object interaction with a user. It is a binary format expression engine framework capable of implementing two-dimensional and three-dimensional graphics in MPEG-4.

The SL packetizer 306 generates and outputs a synchronization packet from each input media stream. That is, the SL packetizer 306 outputs a video stream output from an MPEG-4 encoder and a BIFS signal output from a BIFS generator. The video SLP, which is a packetized and synchronized packet, is output.

The synchronized and ordered video SLPs are input to the TS converter 308 and converted into an MPEG-2 transport stream (TS) in MPEG-2 format. The MPEG-2 transport stream is a signal of DVB-ASI (Digital Video Broadcast Asynchronous Serial Interface), so that the DMB receiver 400 can receive an image even without a synchronization signal.

The converted MPEG-2 transport stream is modulated as an RF signal that the COFDM modulator 310 can communicate with the DMB signal. That is, the COFDM modulator 310 converts the received MPEG-2 transport stream into an RF signal of the DMB communication standard through modulation of a coded orthogonal frequency division multiplex (COFDM) method of the DMB wireless communication standard. Modulate with.

The modulated RF signal is amplified by a power amplifier 312 and radiated through the DMB antenna 314. The amplified RF signal is received by the DMB receiver 400 (DMB navigation, DMB terminal, etc.) installed in the vehicle and outputs an image.

On the other hand, the power amplifier 312 may be implemented to be amplified in the low output power amplifier (LPA) to be radiated through the DMB antenna. The low power amplifier (LPA; Low Power Amplifier) is a device for low power to output only to a radius distance within 5 meters (meter), the DMB antenna 314 only in the DMB receiver 400 installed in the vehicle This is to receive the RF signal radiated through. In addition, since the low power amplification is performed as described above, the size of the DMB antenna can also be reduced, so that the overall size of the DMB transmitter can be reduced. As a result, the RF signal amplified by the low output power amplifier and output through the DMB transmitter may be received by the DMB receiver (navigation, DMB terminal, etc.) installed in the vehicle and output the image.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention is not to be determined by the embodiments described above, but will be apparent in the claims as well as equivalent scope.

1 is a block diagram illustrating a state in which an image captured by a vehicle camera module is conventionally monitored through a cable.

2 is a perspective view of a DMB transmission camera apparatus according to an embodiment of the present invention.

3 is a block diagram of a DBM transmission camera apparatus according to an embodiment of the present invention.

4 is an internal configuration block diagram of a conventional DMB transmitter.

5 is a block diagram of a DMB transmitter according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

200: camera module 300: DMB transmitter

302: MPEG-4 encoder 304: BIFS generation unit

306: SL packetizer 308: TS converter

310: COFDM modulator 312: power amplifier

314: DMB antenna 400: DMB receiver

Claims (8)

A camera module for converting the captured optical signal into digital image data and outputting the converted digital image data; DMB transmitter for converting the digital image data into an RF signal conforming to the DMB communication standard DMB transmission camera device comprising a. The method of claim 1, wherein the camera module, A lens that condenses the surrounding optical signals, An image sensor converting an optical signal incident through the lens into digital data of RGB data and outputting the digital data DMB transmission camera device comprising a. The DMB transmission camera apparatus of claim 2, wherein the digital image data is 8-bit RGB data. The method of claim 1, wherein the DMB transmitter, An MPEG-4 encoder which receives the digital image data and encodes it into an MPEG-4 format and outputs the video stream as a video stream; A BIFS generation unit for generating a BIFS signal, which is a signal for ordering the video stream output from the MPEG-4 encoder; An SL packetizer for receiving the video stream and the BIFS signal and synchronizing the packet to output the video SLP; A TS converter converting and outputting an MPEG-2 transport stream (TS) having a DVB-ASI standard for receiving an image without a synchronization signal in a DMB receiver; A Coded Orthogonal Frequency Division Multiplex (COFDM) modulator for modulating the MPEG-2 transport stream into an RF signal of a DMB communication standard; A power amplifier for amplifying the RF signal converted by the COFDM modulator; The DMB antenna wirelessly radiates the amplified RF signal. DMB transmission camera device comprising a. 4. The DMB transmission camera apparatus according to claim 3, wherein the power amplifier is a low output power amplifier which amplifies to have a low output. 4. The DMB transmission camera apparatus according to claim 3, wherein the MPEG-4 encoder reduces the resolution of the input digital image data by 1/2 to compress the MPEG-4 format. 4. The DMB transmission camera apparatus according to claim 3, wherein the DMB receiver comprises a DMB terminal provided in a vehicle and capable of receiving DMB, and a DMB navigation. The DMB transmission camera apparatus of claim 1, wherein at least one camera module is installed at a front side, a rear side, and a side of the vehicle to capture an image of the surroundings of the vehicle.

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