CN109615870A - A kind of traffic detection system based on millimetre-wave radar and video - Google Patents

Abstract

The traffic detection system based on millimetre-wave radar and video that the invention discloses a kind of, belongs to the data acquisition and processing (DAP) technical field in intelligent transportation.The present invention acquires target information by millimetre-wave radar sensor and video sensor, it carries out world coordinates and is converted into plane of delineation coordinate, determine the position of target projection that millimetre-wave radar sensor acquisition testing arrives on the image plane, target type is identified by image machine learning, by the data fusion of video sensor and millimetre-wave radar acquisition, speed, coordinate, the type of target are exported.The present invention reduces the data difficulty in computation of system, simplifies system flow.Video sensor carries out real time data with the data that millimetre-wave radar detects and merges, and fused target information is sent to system platform, alleviates the calculation amount of system, accelerates the response time of system, improves detection accuracy.

Description

A kind of traffic detection system based on millimetre-wave radar and video

Technical field

The invention belongs to the data acquisition and processing (DAP) technical fields in intelligent transportation, and in particular to one kind is based on millimeter wave thunder Up to the traffic detection system with video.

Background technique

Video sensor is all used in existing traffic detection system mostly, single video sensor is smart in detection effect Exactness is not high, and the delay of image procossing is big, and its precision is easy to be influenced by environment such as rain, mists.Later Vehicle Detection system It is gradually added into the sensors such as other types of sensor, such as millimetre-wave radar, earth magnetism, laser radar in system, utilizes not simultaneous interpretation The advantage of sensor carries out Fusion, substantially increases the detection performance of system.Radar sensor can accomplish reality When detect the position and speed information of target, data processing can reach 20 times per second, and environmental suitability is strong, can be round-the-clock, complete It when work, drawback is can not to visualize.And video sensor is capable of handling image information, if carrying out analysis meter to image It calculates, needs to take a long time by transcoding, can not accomplish real-time response, and environmental suitability is not high.

Using the advantage of both sensors, Data Fusion can be carried out using radar and video as detection front end.But Since the data format that both sensors respectively independently carry out data acquisition and output is inconsistent, system is finally by multiple biographies The much information of the collected same target of sensor is lengthy and jumbled together, huge to the treating capacity of initial data, and it is flat to have aggravated system The data processing work of platform.And in current system, radar and video camera are needed when information merges due to its installation site difference The coordinate system of two kinds of sensors is associated, and two sensor coordinates associations are related with their relative position, if its In a sensor have movement slightly, need associated coordinates again.Due to two sensors in use often by Shake, installation site has deviation after a period of time, leads to being not fixed for distance and angle, needs periodically to re-start coordinate Match, so installation and debugging difficulty is big, it is often necessary to safeguard.

Summary of the invention

The present invention is provided for prior art mechanism complexity and ineffective problem, is provided a kind of based on millimeter wave The traffic detection system of radar and video.

Specifically, the present invention adopts the following technical solutions realize: the traffic detection system include data acquisition Unit, data processing unit, data storage cell, data communication units and system platform；

The data acquisition unit includes millimetre-wave radar sensor and video sensor, and millimetre-wave radar sensor is real-time The acquisition coordinate position of target, the speed of target, the length of target are sent to data processing unit；Video sensor acquires in real time High-definition image data are sent to data processing unit；

The data processing unit includes microprocessor and embedded neural network processor, to same target from milli It is defeated finally to be pressed unified format by the data information fusion that metre wave radar and video sensor detect for the complete information of same target Out to system platform；

The implementation of the traffic detection system the following steps are included:

Step 1: millimetre-wave radar sensor acquires target information, the target information includes the identifier of target, speed Degree, coordinate, length, video sensor acquire the image information on road surface, and the millimetre-wave radar sensor and the video are passed The collected initial data of sensor is sent to data processing unit；

Step 2: world coordinates is converted into plane of delineation coordinate；Millimetre-wave radar sensor collects coordinates of targets, then The camera of internal reference and outer ginseng to the camera of video sensor is corrected, and obtains turn of coordinates of targets and plane of delineation coordinate Matrix is changed, road surface world coordinates is converted into plane of delineation coordinate, determines the mesh that millimetre-wave radar sensor acquisition testing arrives The position of mark projection on the image plane；

Step 3: using the target type in image captured by neural network framework identification video sensor；It is being embedded in Neural network framework algorithm is run in formula neural network processor, it is by image machine learning, the image on road surface is unstructured Data conversion at target type and color structural data；

Step 4: millimetre-wave radar sensor is detected using the coordinate conversion of step 2 and the image recognition of step 3 To target of the target in the image that camera takes corresponded to, get all parameter informations of each target, scheming Superposition target component is merged as in, and the parameter information includes speed, coordinate, the target type of each target；

Step 5: the fused target component is sent to system platform.

Furthermore, world coordinates described in step 2 is converted into plane of delineation coordinate, i.e., by mesh in world coordinate system The conversion of point of the target point into image coordinate system is divided into the realization of two steps:

(1) coordinate (X of the target for detecting millimetre-wave radar sensor in world coordinate system_w, Y_w, Z_w) transform to Camera coordinates system (X_c, Y_c, Z_c), transformation for mula are as follows:

In formula,For by the spin matrix of world coordinate system to camera coordinates system；

I.e.

α wherein is rotated to be around X-axis, β is rotated to be around Y-axis, rotates to be θ about the z axis；

For by the translation matrix of world coordinate system to camera coordinates system, due to millimetre-wave radar sensor in the present apparatus With it is close at a distance from video sensor, the length of translation is equivalent to 0, i.e.,

It can acquire:

Target can be obtained by the coordinate (X in world coordinate system_w, Y_w, Z_w) transform to camera coordinates system (X_c, Y_c, Z_c)

X_C=cos (β) cos (θ) X_W+cos(β)sin(θ)Y_W-sin(β)Z_W

Y_C=(- cos (α) sin (θ)+sin (α) sin (θ) cos (θ)) X_W+(cos(α)cos(θ)+sin(α)sin(β)sin (θ))Y_W

+sin(α)cos(β)Z_W

Z_C=(sin (α) sin (θ)+cos (α) sin (β) cos (θ)) X_W+(-sin(α)cos(θ)+cos(α)sin(β)sin (θ))Y_w+cos(α)cos(β)Z_W

(2) target that will test again transforms to image coordinate system by camera coordinates system, determines that target is passed in the video Projected position (X in picture captured by sensor_S, Y_S), realize the millimetre-wave radar sensor target that detects on the image Positioning:

ω is the horizontal view angle of target in the camera,For the vertical angle of view of target in the camera, v is the lateral ruler of image Very little, h is the vertical size of image.

Furthermore, in step 3, video sensor identifies the data after target type, in data processing unit The calculating of traffic flow statistics data is carried out, the target that simultaneously tracing detection arrives is counted, each period in a certain specified region is calculated The traffic flow statistics data of interior each vehicle.

Furthermore, the data processing unit is detected according to millimetre-wave radar sensor target velocity, coordinate Judge target with the presence or absence of hypervelocity, drive in the wrong direction, disobey and the traffic events such as stop；If traffic events occur, the data processing unit is sent Instruction allows video sensor to be taken pictures, enrolls video evidence obtaining, and the text information of event, image data, video data are passed To system platform.

Beneficial effects of the present invention are as follows: the present invention is based on the traffic detection systems of millimetre-wave radar and video, reduce system The data difficulty in computation of system simplifies system flow.The collected raw image data of video sensor is sent to data processing list Member needs not move through Video coding and decoding operate, thus the no-delay phenomenon of data, the data that can be detected with millimetre-wave radar Carry out real time data fusion.The preliminary fusion treatment that the two data are carried out in data processing unit, fused target is believed Breath is sent to system platform, alleviates the calculation amount of system, accelerates the response time of system, improve detection accuracy.

Detailed description of the invention

Fig. 1 is system construction drawing of the invention.

Fig. 2 is system flow chart of the invention.

Fig. 3 is the camera calibration schematic diagram of video sensor in the present invention.

Fig. 4 be in the present invention target from camera coordinates system to the schematic diagram of image coordinate system projection relation.

Specific embodiment

Below with reference to embodiment and referring to attached drawing, present invention is further described in detail.

Embodiment 1:

One embodiment of the present of invention is a kind of traffic detection system based on millimetre-wave radar and video, referring to Fig.1, Fig. 2, Fig. 3 and Fig. 4, the traffic detection system based on millimetre-wave radar and video include data acquisition unit, data processing unit, Data storage cell, data communication units and system platform.

Data acquisition unit: data acquisition unit includes millimetre-wave radar sensor and video sensor.Millimetre-wave radar Sensor acquires target information in real time, and the data content detected includes the coordinate position of target, the speed of target, the length of target Degree etc., is sent to data processing unit for collected target information.Video sensor acquires high-definition image data in real time, will adopt The image information collected is sent to data processing unit.

Data processing unit: data processing unit includes ARM microprocessor and embedded neural network processor (NPU). Embedded neural network processor (NPU) is responsible for the processing of image data, identifies the type (pedestrian, automobile, truck etc.) of target, And by the data of the collected target information of millimetre-wave radar (coordinate position of target, the speed of target, length of target etc.) It is superimposed upon in video image.ARM microprocessor is responsible for counting the information of all traffic flows and traffic events identification.Data processing In unit to real-time reception to target information carry out same target coordinate convert, by same target come from millimetre-wave radar The data information fusion detected with video sensor is finally exported the complete information of same target to system by unified format Platform.

Data storage cell: data storage cell includes built-in multimedia storage card (EMMC) and SD card.Including insertion Formula multimedia storage card (EMMC) is used for storage program area, and SD card is for storing traffic flow data library and traffic event information.

Data communication units: communication unit includes network (ETH) interface and RS485 interface, network (ETH) interface be used for System platform transmits telecommunication flow information, traffic event information, video image information.RS485 interface for dock bayonet camera and Crossing traffic controls semaphore.

As shown in Fig. 2, the implementation of the traffic detection system based on millimetre-wave radar and video the following steps are included:

Step 1: millimetre-wave radar sensor and video sensor carry out the letter of target and road surface as environment sensing front end Breath acquisition, acquires target information and pavement image information, and millimetre-wave radar sensor and video sensor are collected respectively Initial data be sent to data processing unit.Wherein the collected information of millimetre-wave radar sensor includes the identifier of target (ID), speed, coordinate, length etc., video sensor collect the image information on road surface.

Step 2: world coordinates is converted into plane of delineation coordinate.Millimetre-wave radar sensor collects coordinates of targets, then The camera of internal reference and outer ginseng to the camera of video sensor is corrected, and obtains turn of coordinates of targets and plane of delineation coordinate Matrix (i.e. spin matrix and translation matrix) is changed, road surface world coordinates is converted into plane of delineation coordinate, may thereby determine that out The position of the target projection that millimetre-wave radar sensor acquisition testing arrives on the image plane.

The conversion process of point of the point of target into image coordinate system is realized in two steps in world coordinate system:

(1) coordinate (X of the target for detecting millimetre-wave radar sensor in world coordinate system_w, Y_w, Z_w) transform to Camera coordinates system (X_c, Y_c, Z_c), transformation for mula are as follows:

In formula,For by the spin matrix of world coordinate system to camera coordinates system.

I.e.

As shown in figure 3, wherein rotating to be α around X-axis, β is rotated to be around Y-axis, rotates to be θ about the z axis.

For by the translation matrix of world coordinate system to camera coordinates system, due to millimetre-wave radar sensor in the present apparatus With it is close at a distance from video sensor, the length of translation is equivalent to 0, i.e.,

It can acquire:

Target can be obtained by the coordinate (X in world coordinate system_w, Y_w, Z_w) transform to camera coordinates system (X_c, Yc, Z_c)

X_C=cos (β) cos (θ) X_W+cos(β)sin(θ)Y_W-sin(β)Z_W

Y_C=(- cos (α) sin (θ)+sin (α) sin (θ) cos (θ)) XW+ (cos (α) cos (θ)+sin (α) sin (β) sin(θ))Y_W

+sin(α)cos(β)Z_W

Z_C=(sin (α) sin (θ)+cos (α) sin (β) cos (θ)) X_W+(-sin(α)cos(θ)+cos(α)sin(β)sin (θ))Y_w+cos(α)cos(β)Z_W

(2) target that will test again transforms to image coordinate system by camera coordinates system, determines target in video sensor Projected position (X in captured picture_S, Y_S), realize the target that detects of millimetre-wave radar sensor determining on the image Position.

As shown in figure 4, ω is the horizontal view angle of target in the camera,For the vertical angle of view of target in the camera, v is figure The lateral dimension of picture, h are the vertical size of image.

Step 3: using the target type in image captured by neural network framework YOLO identification video sensor.Depending on Frequency detector only needs to identify the classification of target, and the calculating complicated without other reduces the delay of transcoding, accelerates system Response time.YOLO algorithm is run in neural processing unit (NPU), neural processing unit (NPU) is using " data-driven is parallel The image unstructured data on road surface is converted into the knot of target type and color by image machine learning by the framework of calculating " Structure data.

Step 4: using the coordinate conversion of step 2 and the image recognition of step 3, it can be by millimetre-wave radar sensor Target of the target detected in the image that camera takes is corresponded to, and all parameter informations of each target are got, It is superimposed the parameter of target in the picture, parameter includes the speed of each target, coordinate, target type (including vehicle, the letter such as color Breath).The target data that two sensors of fusion calculation detect, increases available target component type, improves system Detection accuracy.

Step 5: fused target component (speed, coordinate, type etc.) is sent to system platform.Two are sensed The initial data that device detects carries out rough estimates processing, and the initial data without detecting front-end collection unit, which is all transmitted to, is System platform, greatly reduces the calculation amount of system.

Data after identifying target type using video sensor, can also further traffic flow in data processing unit Statistical data calculates.The target that simultaneously tracing detection arrives is counted, each vehicle in a certain specified region in each period is calculated (non-motor vehicle, car, bus, lorry) crosses the traffic flow statistics such as vehicle flowrate, average speed, occupation rate, time headway Data.

In data processing unit target can also be judged according to target velocity that millimetre-wave radar sensor detects, coordinate With the presence or absence of hypervelocity, drives in the wrong direction, disobeys and the traffic events such as stop.If traffic events occur, data processing unit, which sends instruction, allows video to pass Sensor is taken pictures, enrolls video evidence obtaining, and the text information of event, image data, video data are reached system platform.

Although the present invention has been described by way of example and in terms of the preferred embodiments, embodiment is not for the purpose of limiting the invention.Not It is detached from the spirit and scope of the present invention, any equivalent change or retouch done also belongs to the protection scope of the present invention.Cause This protection scope of the present invention should be based on the content defined in the claims of this application.

Claims (4)

1. a kind of traffic detection system based on millimetre-wave radar and video, which is characterized in that the traffic detection system includes Data acquisition unit, data processing unit, data storage cell, data communication units and system platform；

The data acquisition unit includes millimetre-wave radar sensor and video sensor, and millimetre-wave radar sensor acquires in real time The coordinate position of target, the speed of target, the length of target are sent to data processing unit；Video sensor acquires high definition in real time Image data is sent to data processing unit；

The data processing unit includes microprocessor and embedded neural network processor, comes from millimeter wave to same target The fusion of data information that radar and video sensor detect, finally by the complete information of same target by unified format export to System platform；

The implementation of the traffic detection system the following steps are included:

Step 1: millimetre-wave radar sensor acquires target information, the target information includes identifier, speed, the seat of target Mark, length, video sensor acquire the image information on road surface, the millimetre-wave radar sensor and the video sensor are adopted The initial data collected is sent to data processing unit；

Step 2: world coordinates is converted into plane of delineation coordinate；Millimetre-wave radar sensor collects coordinates of targets, then to view The internal reference of the camera of video sensor and the camera of outer ginseng are corrected, and obtain the conversion square of coordinates of targets Yu plane of delineation coordinate Battle array, is converted into plane of delineation coordinate for road surface world coordinates, determines that the target that millimetre-wave radar sensor acquisition testing arrives is thrown The position of shadow on the image plane；

Step 3: using the target type in image captured by neural network framework identification video sensor；In embedded mind Through running neural network framework algorithm in network processing unit, by image machine learning, by the image unstructured data on road surface It is converted into the structural data of target type and color；

Step 4: millimetre-wave radar sensor is detected using the coordinate conversion of step 2 and the image recognition of step 3 Target of the target in the image that camera takes is corresponded to, and gets all parameter informations of each target, in the picture Superposition target component is merged, and the parameter information includes speed, coordinate, the target type of each target；

Step 5: the fused target component is sent to system platform.

2. the traffic detection system according to claim 1 based on millimetre-wave radar and video, it is characterised in that: step 2 Described in world coordinates be converted into plane of delineation coordinate, i.e. the point by the point of target in world coordinate system into image coordinate system Conversion is divided into the realization of two steps:

(1) coordinate (X of the target for detecting millimetre-wave radar sensor in world coordinate system_w, Y_w, Z_w) transform to camera Coordinate system (X_c, Y_c, Z_c), transformation for mula are as follows:

In formula,For by the spin matrix of world coordinate system to camera coordinates system；

I.e.

α wherein is rotated to be around X-axis, β is rotated to be around Y-axis, rotates to be θ about the z axis；

Due to millimetre-wave radar sensor in the present apparatus and to regard by the translation matrix of world coordinate system to camera coordinates system The distance of video sensor is close, and the length of translation is equivalent to 0, i.e.,

It can acquire:

Target can be obtained by the coordinate (X in world coordinate system_w, Y_w, Z_w) transform to camera coordinates system (X_c, Y_c, Z_c)

X_c=cos (β) cos (θ) X_w+cos(β)sin(θ)Y_w-sin(β)Z_w

Y_c=(- cos (α) sin (θ)+sin (α) sin (θ) cos (θ)) X_w+(cos(α)cos(θ)+sin(α)sin(β)sin(θ)) Y_w+sin(α)cos(β)Z_w

Z_c=(sin (α) sin (θ)+cos (α) sin (β) cos (θ)) X_w+(-sin(α)cos(θ)+cos(α)sin(β)sin(θ)) Y_w+cos(α)cos(β)Z_w

(2) target that will test again transforms to image coordinate system by camera coordinates system, determines target in the video sensor Projected position (X in captured picture_s, Y_s), realize the target that detects of millimetre-wave radar sensor determining on the image Position:

ω is the horizontal view angle of target in the camera,For the vertical angle of view of target in the camera, v is the lateral dimension of image, h For the vertical size of image.

3. the traffic detection system according to claim 1 based on millimetre-wave radar and video, it is characterised in that: in step In three, video sensor identifies the data after target type, and the calculating of traffic flow statistics data, system are carried out in data processing unit The target that simultaneously tracing detection arrives is counted, the traffic flow statistics number of each vehicle in a certain specified region in each period is calculated According to.

4. the traffic detection system according to claim 1 based on millimetre-wave radar and video, it is characterised in that: the number The target velocity that is detected according to processing unit according to millimetre-wave radar sensor, coordinate judge target with the presence or absence of hypervelocity, drive in the wrong direction, Disobey stop equal traffic events；If traffic events occur, the data processing unit, which sends instruction, allows video sensor to be taken pictures, be recorded It takes video to collect evidence, and the text information of event, image data, video data is reached into system platform.