CN203078415U - Intelligent vehicle-mounted panoramic imaging system - Google Patents

Abstract

The utility model discloses an intelligent vehicle-mounted panoramic imaging system which comprises an image acquisition module, an image processing module and a central control unit and further comprises a GPS positioning module and a touch display screen. The GPS positioning module and the touch display screen are connected with the central control unit, the image processing module comprises an image coding input unit, a write-cache unit, a read-write unit, an image processing unit, a read-cache unit, a storage and an image coding output unit. The image coding input unit is connected with the image processing unit through the write-cache unit and the read-write unit in sequence. The image coding output unit is connected with the read-write unit through the read-cache unit. The intelligent vehicle-mounted panoramic imaging system is novel in design and capable of providing panoramic images of 360 degrees around a vehicle, so that panoramic shooting tasks of multiple spots are conveniently finished. The GPS positioning module can position the position of the vehicle in real time, so that the vehicle arrives at a shooting place accurately and timely, and operability is improved through the touch display screen.

Description

Intelligent vehicle-carried omnidirectional imaging system

Technical field

The utility model relates to a kind of vehicle-mounted imaging system, relates in particular to a kind of intelligent vehicle-carried omnidirectional imaging system.

Background technology

Panoramic technique is to develop rapidly in the present global range and progressively popular a kind of vision up-to-date technology.Because it brings sense of brand new real scene and interactively impression to people, can be widely used in the three-dimensional electronic commercial affairs, as fields such as online tourist attractions roaming, the displaying of real estate building, virtual education.

Traditional photo all is a two dimensional image, does not have the virtual reality effect.And 360 ° of panoramas are by catching the pictorial information or the image of whole scene to mm professional camera special, use software to carry out picture or image amalgamation, and play with special player, being about to the plane photo is used for virtual reality and browses, the real three dimensional space of two-dimensional plane figure simulation coming true, present to the audience.And provide the function of various steers image to the audience, and can amplify and dwindle, all directions move watches scene, with the effect of the true environment that reaches simulation and reconstruction of scenes.Existing panorama camera system utilizes hardware device pointwises such as slr camera, fish eye lens, pan and tilt head, tripod to take, and long function singleness consuming time can't efficiently be finished the pan-shot task at large-scale sight spot.

The utility model content

At the problem that above-mentioned prior art exists, the utility model provides a kind of intelligent vehicle-carried omnidirectional imaging system.

To achieve these goals, the technical solution adopted in the utility model is: a kind of intelligent vehicle-carried omnidirectional imaging system, comprise image capture module, image processing module and central controller, also comprise GPS locating module and touch display screen, the GPS locating module links to each other with central controller with touch display screen, image processing module comprises image coding input block, write buffer unit, read-write cell, graphics processing unit, read buffer unit, memory device and image coding output unit, image coding input block links to each other with graphics processing unit with read-write cell through writing buffer unit successively, and image coding output unit links to each other with read-write cell through reading buffer unit.

As preferably, image processing module comprises memory device, and memory device links to each other with read-write cell.

As preferably, image capture module comprises several image acquisition terminals.

Compared with prior art, advantage of the present utility model is: modern design, can provide vehicle periphery 360 ° of panoramic pictures, conveniently to finish the pan-shot task of multiple spot, the GPS locating module can make vehicle accurately and timely reach shooting point by the real-time positioning vehicle location, and touch display screen improves operability.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is an image processing module structural representation of the present utility model.

The specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

As a kind of embodiment of the present utility model, consult Fig. 1, the utility model comprises image capture module, image processing module and central controller, also comprise GPS locating module and touch display screen, the GPS locating module links to each other with central controller with touch display screen, image processing module comprises image coding input block, write buffer unit, read-write cell, graphics processing unit, read buffer unit, memory device and picture and image coding output unit, image coding input block links to each other with graphics processing unit with read-write cell through writing buffer unit successively, and picture and image coding output unit link to each other with read-write cell through reading buffer unit.Image processing module comprises memory device, and memory device links to each other with read-write cell.Image capture module comprises several image acquisition terminals.

The utility model modern design can provide vehicle periphery 360 ° of panoramic pictures, and conveniently to finish the pan-shot task of multiple spot, the GPS locating module can make vehicle accurately and timely reach shooting point by the real-time positioning vehicle location, and touch display screen improves operability.

Although be that a most practical and preferred embodiment has been described the utility model in conjunction with current taking as, but be to be understood that, the utility model is not limited to the disclosed embodiments, and is intended to contain multiple modification and equivalent arrangements included in the spirit and scope of the appended claims on the contrary.

Claims (3)

1. intelligent vehicle-carried omnidirectional imaging system, comprise image capture module, image processing module and central controller, it is characterized in that: also comprise GPS locating module and touch display screen, described GPS locating module links to each other with central controller with touch display screen, described image processing module comprises image coding input block, write buffer unit, read-write cell, graphics processing unit, read buffer unit, memory device and image coding output unit, described image coding input block links to each other with graphics processing unit with read-write cell through writing buffer unit successively, and described image coding output unit links to each other with read-write cell through reading buffer unit.

2. intelligent vehicle-carried omnidirectional imaging system according to claim 1 is characterized in that: described image processing module comprises memory device, and described memory device links to each other with read-write cell.

3. intelligent vehicle-carried omnidirectional imaging system according to claim 1 is characterized in that: described image capture module comprises several image acquisition terminals.

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