CN105933666B - Multi-lens travel recorder - Google Patents
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- CN105933666B CN105933666B CN201610434765.5A CN201610434765A CN105933666B CN 105933666 B CN105933666 B CN 105933666B CN 201610434765 A CN201610434765 A CN 201610434765A CN 105933666 B CN105933666 B CN 105933666B
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- H—ELECTRICITY
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- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
- H04N7/181—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast for receiving images from a plurality of remote sources
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
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- H—ELECTRICITY
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- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/57—Mechanical or electrical details of cameras or camera modules specially adapted for being embedded in other devices
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- H—ELECTRICITY
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Abstract
The invention discloses a multi-lens travel recorder which comprises a multi-lens system, a network layer, a server and an information editing and pushing system. The system can seamlessly record the individual journey in the whole process and cooperatively exchange data with other multi-lens journey recorders or monitoring systems.
Description
Technical Field
The invention relates to a travel video recorder, in particular to a multi-lens travel recorder based on a multi-lens system and a mixed reality technology (MR) and an information editing and pushing system thereof.
Background
The automobile data recorder is an instrument for recording relevant information such as images and sounds during the running of a vehicle. The time, the speed and the position are recorded in the video while the automobile is driven, the video images and the sound of the whole driving process of the automobile can be recorded, and evidence can be provided for traffic accidents. However, the automobile data recorder is generally installed on an automobile, and it is difficult to record an individual journey in the whole course. The video data of the automobile data recorder can not be cut and edited.
The live show is produced as an omni-directional, real, close-range shot and dramatic post-cut. The real show needs a plurality of photographers to track and shoot an actor, and ordinary people cannot bear the cost of the actor, so that the actor becomes the real show leading role of the life of the ordinary people.
In a live show, a photographer may express a specific intention, including rich variations in scene distance, angle of view, motion of a camera, and film and television picture processing skills, in a picture taken with a camera through a variety of lens languages according to a director's request. The shot materials need to be subjected to a large amount of post-editing and cannot be directly played as streaming media. Single view lenses like a car recorder are more difficult to use directly.
In the age of self-media, people are keen on self-timer, but the difficulty of video self-timer is far more than that of picture self-timer, and the self-expression requirement of people is hard to meet. When the self-timer is used for shooting, information of a single angle, a local place and a time is obtained, and more visual angle and larger time dimension information are difficult to contain.
Television, radio, newspaper and magazine are four traditional advertisement media, which are disclosed and widely transmit information to the public, however, the public is a passive information receiver, basically does not watch advertisements actively, and is more difficult to make the public become a part of the advertisement media.
The monitoring system directly watches all conditions of the monitored place through the remote control camera and auxiliary equipment (lens, holder and the like). However, the monitoring system of the large investment construction of the merchant is only one component of the security system, and the data taken by the monitoring system is generally only provided with video for post-query and analysis and is deleted after the filing period is finished. The merchant is difficult to propagate and popularize themselves by using the monitoring system, and the public is difficult to acquire and utilize the image data of the merchant in the monitoring system.
Generally, a smartphone is provided with front and rear cameras, but the current image software does not use the front and rear cameras to acquire data at the same time.
The view of enterprise employees in the front-line market is a key basis for important wealth and administrator decision of enterprises. However, there is currently no effective means to video record these trip data.
Disclosure of Invention
In order to solve the problems, a personal trip recorder based on a multipoint wireless mobile video and mixed reality technology (MR) and an information editing and pushing system thereof are obtained, and an actively-propagated self-media advertisement promotion method is provided. The invention discloses a multi-lens travel recorder.
The technical scheme adopted by the invention for solving the technical problems is as follows:
a multi-lens travel recorder comprises a multi-lens system, a network layer, a server and an information editing and pushing system. The method is characterized in that:
the multi-lens system collects more than one group of video data by using a set lens language. The collected video data is wirelessly sent to a server through a network layer and is post-processed by an information editing and pushing system. And sending the processed result to a specified social network, a cloud disk, a mailbox or playing as streaming media.
The multi-lens system is a plurality of groups of camera lenses on the same shooting device or a plurality of groups of camera lenses capable of exchanging information with each other in a wireless dynamic networking. The multiple groups of camera lenses are divided into a self lens and other lenses, or a portrait lens and a scene lens, or a moving lens and a fixed lens.
The self-lens is a camera lens which is carried by the user and shoots the user.
The other lens is a camera lens which shoots the user from the perspective of a third party and is connected by a network layer to exchange relevant video data to the user according to a protocol.
The scene distance and the visual angle of at least one of the multiple groups of camera shots are set to be self-shot of the user's bust, close-up or big close-up.
The portrait lens is a plurality of lenses for shooting images of the user through the self lens or other lenses in the plurality of groups of camera lenses, and the scene lens is a plurality of lenses for shooting or calling surrounding scenes of the user according to a time chain or a geographical position label through the self lens or other lenses.
A plurality of groups of camera lenses on the same shooting device are front and back lenses on a smart phone. A multi-group camera lens on the same shooting device is a 360-degree camera provided with a multi-view lens. A multi-group camera lens on the same shooting device is an automobile data recorder provided with multi-view-angle lenses. A plurality of groups of camera lenses on the same shooting device are scooter, bicycle or motorcycle handlebar automobile data recorders provided with multi-view-angle lenses.
A multi-group camera lens of a mobile lens is composed of a plurality of automobile data recorders, single-lens cameras, multi-lens 360-degree cameras or smart phones which are connected by a network layer and can shoot and exchange information with each other.
A fixed-lens video surveillance system in which other lenses are connected by a network layer and which allows information exchange per protocol.
A simple multi-lens system can be realized by using front and rear lenses of a mobile phone.
Or, the multi-lens system connected with the network layer is realized by using the front and back lenses of the mobile phone, a mobile phone positioning system and a video monitoring system in a network protocol.
Or, a multi-mode many camera lens system that adaptation car mode, bicycle, motorcycle and scooter mode, wearing mode and handheld mode used, its technical characterstic is:
the multi-mode multi-lens system comprises a shell, a holder, more than 2 groups of camera lenses, an n-shaped bayonet, a grip sucker, a folding connecting rod and a power supply.
The n-shaped bayonet is a quick detachable buckle structure and is connected with a connector quick detachable buckle by using the material performance and the bounce determined by the buckle height and the wall thickness.
More than 2 camera lenses are connected in the shell by the cloud platform. The shell is transparent, semitransparent or a transparent shell is arranged at the position of the lens. The shell is provided with a groove-shaped connecting structure n-shaped bayonet. The size of the groove-shaped connecting structure is matched with a handlebar of a bicycle, a motorcycle or a scooter. The multi-mode multi-lens system is provided with a folding connecting rod which is matched with the size of the groove-shaped connecting structure, one end of the folding connecting rod is connected with the n-shaped bayonet through a connector, and the other end of the folding connecting rod is connected with the grip sucker. One end of a folding connecting rod is connected with the n-shaped bayonet in a rotating and folding mode through a connector, one end of the folding connecting rod is connected with the n-shaped bayonet through a connector screw, one end of the folding connecting rod is connected with the n-shaped bayonet through the connector in an inserting mode, and one end of the folding connecting rod is connected with the n-shaped bayonet through the connector buckle.
When the multi-mode multi-lens system is clamped on the handlebar of a bicycle, a motorcycle or a scooter through the n-shaped bayonet, the multi-mode multi-lens system becomes a handlebar stroke recorder.
When the multi-mode multi-lens system is connected with the folded folding connecting rod in a clamping mode through the n-shaped bayonet, the handle sucker is arranged to be connected with the automobile window in an adsorption mode, and the multi-mode multi-lens system becomes the automobile data recorder. The handle sucker is provided with a space bending structure, so that when the sucker is connected with a car window in an adsorption mode, the multi-mode multi-lens system obtains a visual field as large as possible.
When the multi-mode multi-lens system is connected with a epaulet buckle, a strap, a belt or a helmet through the n-shaped bayonet or the tail end of the grip sucker, the multi-mode multi-lens system becomes a wearable stroke recorder.
When the multi-mode multi-lens system is connected with the folding connecting rod connector in an unfolded state through the n-shaped bayonet, the handle suction disc can be held by hand to enable the multi-mode multi-lens system to become a handheld stroke recorder.
At least 1 group of the more than 2 groups of the camera lenses are arranged as the own lens. Preferably, a multi-mode multi-lens system is provided with 6 sets of photographing lenses, which are respectively disposed at the front, rear, left, right, up and down of the multi-mode multi-lens system, to photograph 360-degree video data. Each camera lens is set to have a fixed viewing angle or the pitch angle and the roll angle of the camera lens are adjustable.
To optimize the quality of the shot during the movement, one type of pan-tilt is a micro-motion pan-tilt. The micro-motion holder is provided with a gyroscope and a servo micro-motor, so that a plurality of groups of camera lenses can stably shoot videos in a bumpy environment, and the pitch angle and the roll angle of the camera lenses can be adjusted through an APP.
Preferably, the multi-mode multi-lens system is in data exchange connection with a monitoring system in a smart phone or other multi-mode multi-lens systems or protocols through a network layer.
The network layer is a protocol layer and is responsible for the establishment and maintenance of the wireless ad hoc network, and the network layer provides management service and data service for the information editing and pushing system through an interface. The network layer data is connected with the server database and undertakes the management and maintenance work of the network information database.
The wireless ad hoc network is a special short-distance wireless mobile network automatically, quickly and dynamically established among nodes by direct or multi-hop communication of network protocols among a plurality of multi-lens systems, among the multi-lens systems and a smart phone, among the multi-lens systems and a city landmark and among the multi-lens systems and a user, and each node in the network can be provided with a terminal system and a relay routing function simultaneously, so that the wireless ad hoc network can receive and transmit data and can also transmit multi-hop. When the node is used as a terminal system, the node is used as a host to run a corresponding program; when a node acts as a router, it runs the required routing protocols and starts the task of packet forwarding and maintaining routes. One routing protocol is based on the ant colony algorithm.
The nodes of the multi-lens system exchange video data, position coordinate information, geographic information, map information, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the arrangement and combination of the above information through the wireless ad hoc network in combination with the timestamp.
The acquired information is transmitted to a sensible computing node in the current wireless ad hoc network for respective computing or cooperative computing, so that a video related to a user is edited from large data video data shot by the multi-lens system. And then optimizing, filtering, clipping and encoding by an information editing and pushing system. And sending the processing result to a specified social network, a cloud disk, a mailbox or playing as a streaming media. And forming the internet of things that a user is connected with a multi-lens system, the multi-lens system is connected with the multi-lens system, the multi-lens system is connected with a smart phone, the multi-lens system is connected with a travel, and the multi-lens system is connected with a city.
The computing node is a mobile node in a network protocol, a positioning node in the network protocol or other computers, distributed computing centers or cloud computing platforms connected with the wireless ad hoc network node through network information. The cooperative calculation is calculation performed by dynamically optimizing the temporary networking of the calculation nodes along with the change of the position coordinates of the multi-lens system.
The information editing and pushing system is positioned at the topmost layer of the wireless ad hoc network protocol stack frame and is used for completing various established tasks by developing various applications with different functions.
A wireless ad hoc network is a point-to-point mobile ad hoc network, and a wireless ad hoc network is a wireless mesh network. A wireless ad hoc network is a wireless ad hoc network based on a ZigBee protocol. A wireless ad hoc network is a wireless ad hoc network based on WiFi, and a wireless ad hoc network based on WiFi is a HaLow wireless ad hoc network. A wireless ad hoc network is a wireless ad hoc network based on Bluetooth, a wireless ad hoc network based on Bluetooth is a wireless ad hoc network based on low-power consumption Bluetooth BLE, a wireless ad hoc network based on Bluetooth is a Bluetooth point-to-point wireless ad hoc network based on a multimedia Connectivity framework, and a wireless ad hoc network based on Bluetooth is a wireless ad hoc network based on iBeacon. A wireless Ad Hoc network is an Ad Hoc network based on ultra wide band UWB. A wireless ad hoc network is based on ultra wide band UWB and Bluetooth mixed communication. A wireless ad hoc network is based on WIFI and Bluetooth mixed communication. A wireless ad hoc network is based on WIFI and ZigBee mixed communication.
When the wireless ad hoc network is based on or mixed with a wireless ad hoc network of WiFi technology, a full-function node is also a cross-network node for connecting the wireless ad hoc network and the Internet.
The information editing and pushing system is artificial intelligence, and the working method is as follows:
1. the multi-lens travel recorder is provided with an APP client control information editing and pushing system on a mobile phone.
2. The information editing and pushing system is provided with a script system, and the script system comprises a video editing system and a video material library.
One video editing system is a virtual director program that scans and parses the shot language, color preferences, composition habits, filming maneuvers, and editing techniques of several directors through past movie big data. The analysis results are digitally programmed and sorted by director's name. Simulating the set director's habits to process the clipped video stream data.
One video clipping system is a MR clipping program that clips raw video data by virtual reality technology or augmented reality technology.
A video editing system is composed of several pre-editing programs, which are a templated and programmed editing language.
A video material library is a plot library, wherein a plurality of video materials are shot according to a set plot mode and stored in a server for later use.
A video material library is an MV music short film library, wherein a plurality of video materials are shot according to set music in an MV music short film mode and are stored in a server for later use.
3. Setting a video material library to classify according to a set classification standard;
for example, according to the scenes, the method is divided into the following steps: an extreme long shot, a large panorama, a small panorama, a medium shot, a half-length shot, a close-up or a large close-up;
the method comprises the following steps according to the motion of a camera: pushing, pulling, shaking, moving, heeling, lifting, descending, bowing, pitching, swinging, suspending, hollowing, cutting, heald, long, reverse beating, zooming or subjective shooting;
and categorizing by geographic location, categorizing by landmark sight spots, categorizing by season, categorizing by story, categorizing by light, categorizing by color, categorizing by music, categorizing by special effects, categorizing by advertisement story, categorizing by video duration, and the like.
4. The information editing and pushing system receives video information data transmitted by the multi-lens system through a network layer, analyzes the video data through a video image recognition program, and edits and selects high-quality original video data. And integrating user position coordinate information, geographic information, map information, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the arrangement and combination of the information, and filtering and screening the video material library according to a video clipping system set by the APP client to obtain the mixed clipping suitable for the video data and the high-quality original video data.
Setting the blending ratio of the video data of the library of feature video material to the original video data is optional.
5. And the processing result is sent to a specified social network, a cloud disk and a mailbox or played as a streaming media through the selection or presetting of the mobile phone APP client.
Based on an information editing and pushing system, an actively propagated self-media advertisement promotion method comprises the following steps:
1. a plurality of high-quality video materials containing advertisement information are prepared in advance.
2. And uploading the material setting labels to a corresponding video material library of the server according to the set classification.
3. The public edits high-quality video materials containing advertisement information related to the time position, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the information arrangement combination into the self-shooting video and spreads the self-shooting video through a self-media by an information editing and pushing system spontaneously due to the need of beautifying and enriching the self-shooting video during self-shooting.
Or,
1. the advertiser opens the monitoring system data containing the advertisement information to the public through a network layer protocol, and sets a multi-lens travel recorder to acquire the monitoring system video material of a set angle and a set time period from a designated landmark through an identity recognition system based on the geographic position.
2. And uploading the material setting label to a corresponding account of the server for standby according to the identification system mark.
3. The public can spontaneously edit the monitoring system video material containing advertisement information related to the self-timer time position, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the arrangement and combination of the information into the self-timer video through an information editing and pushing system and spread the video material through self media due to the fact that multi-angle data are acquired to enrich the self-timer video during video self-timer.
Based on an information editing and pushing system, a method for managing the online market travel records of enterprise employees comprises the following steps:
1. one MR clipping procedure set for a business is BMR. The BMR is a video recognition, filtering, editing program. The method comprises the steps of image acquisition and detection, image preprocessing, image feature extraction, matching and identification.
2. The BMR is set to acquire images or video streams by using a camera or a camera, and automatically detect and track set human faces, set patterns, set numbers or set voice keywords in the images, so as to filter, extract, label, clip, encode, convert voice into subtitles or carry out interactive operation on the detected set information.
3. The BMR is provided with a special effect label library, wherein the special effect label library is a visual symbol, a label, a selection frame, a table, a number or a caption for labeling, comparing, summarizing, counting or analyzing the recognized set human face, set patterns, set numbers or set voice keywords.
4. The BMR integrates position coordinate information, geographic information, map information, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or arrangement and combination of the information of the staff in one line, automatically clips a plurality of working travel records according to a set working target, processes the working travel records through a mixed reality technology, and marks, compares, summarizes, counts or analyzes the working travel records by using proper special effect label library data.
5. And the processing result is sent to a specified enterprise network, a cloud disk and a mailbox or played as a streaming media through the selection or presetting of the mobile phone APP client. Therefore, the manager can effectively and intuitively know the set market index from the visual angle of a plurality of staff in the same line.
The structure of the multi-lens travel recorder is at least provided with one or more than one.
The invention has the beneficial effects that:
the invention discloses a multi-lens travel recorder based on a multi-lens system and a mixed reality technology and an information editing and pushing system thereof. And provides an actively-propagated self-media advertisement promotion method.
The multi-lens travel recorder can record video images and sounds of vehicles such as automobiles, bicycles, motorcycles, scooters and the like in the whole running process, and provides evidences for traffic accidents. The device can also record the whole journey seamless recording individual journey of walking and carrying into indoor places, and the like, and helps children and old people to protect safety.
The multi-lens travel recorder can be used for cooperatively exchanging data with other multi-lens travel recorders or monitoring systems, and can call data with more visual angles and larger time dimensions from a server. Therefore, the programs can be shot in all directions and at multiple angles and can be made by later editing of software drama. The device helps ordinary people to become the leading role of the real people in their lives.
The monitoring system owner opens the monitoring system data to the multi-lens travel recorder through a protocol, and helps the public to acquire and utilize the image data of the public in the monitoring system. The public can be guided to help the dissemination, and the information producer and the dissemination can be active.
The simple multi-lens travel recorder can be realized by using front and rear cameras arranged on a common smart phone.
The multi-lens travel recorder can also help enterprise employees to record travel, and becomes an important basis for decision making of enterprise managers.
Description of the drawings;
the invention is further illustrated with reference to the following figures and examples.
Figure 1 is a schematic view of the vehicle mode configuration of the present invention,
FIG. 2 is a schematic view of the handlebar mode structure of the present invention,
figure 3 is a schematic view of the hand-held mode configuration of the present invention,
in the figure: 1. a multi-mode multi-lens system; 2. a housing; 3. a holder; 4. a camera lens; 5. an n-shaped bayonet; 6. a grip sucker; 7. folding the connecting rod; 8. a handlebar; 9. a handlebar stem; 10. a spatial bending structure; 11. a connecting head.
The specific implementation mode is as follows:
as shown in FIGS. 1 to 3: the multiple groups of camera lenses are divided into self-lenses and other lenses, or into portrait lenses and scene lenses, or into moving lenses and fixed lenses.
The self-lens is a camera lens which is carried by the user and shoots the user. The camera shot by the user is shot from the perspective of a third party, and the camera shot is connected by a network layer and exchanges related video data to the user according to a protocol. In an embodiment, a shot may be either a self shot of video a or an other shot of video B.
In the embodiment, the portrait shot is a plurality of shots of the plurality of groups of camera shots for capturing images of the user through the self-shot or other shots, and the scene shot is a plurality of shots for capturing or calling the surrounding scenes of the user through the self-shot or other shots according to a time chain or a geographical position label.
In an embodiment, the multiple groups of camera lenses on one and the same shooting device are front and back lenses on a smart phone. A multi-group camera lens on the same shooting device is a 360-degree camera provided with a multi-view lens. A multi-group camera lens on the same shooting device is an automobile data recorder provided with multi-view-angle lenses. A plurality of groups of camera lenses on the same shooting device are scooter, bicycle or motorcycle handlebar automobile data recorders provided with multi-view-angle lenses.
A multi-group camera lens of a mobile lens is composed of a plurality of automobile data recorders, single-lens cameras, multi-lens 360-degree cameras or smart phones which are connected by a network layer and can shoot and exchange information with each other.
A fixed-lens video surveillance system in which other lenses are connected by a network layer and which allows information exchange per protocol.
In an embodiment, a simple multi-lens system can be implemented using front and rear lenses of a mobile phone.
Or, the multi-lens system connected with the network layer is realized by using the front and back lenses of the mobile phone, a mobile phone positioning system and a video monitoring system in a network protocol.
Or, in the embodiment, a multi-mode multi-lens system that adapts to car, bicycle, motorcycle, scooter, dress and handheld use, its technical features is:
the multi-mode multi-lens system 1 comprises a shell 2, a holder 3, more than 2 groups of camera lenses 4, an n-shaped bayonet 5, a grip sucker 6, a folding connecting rod 7 and a power supply.
As shown in the figure, the n-shaped bayonet 5 is a quick detachable buckle structure which is connected with a connector quick detachable buckle by using the material performance and the bounce determined by the buckle height and the wall thickness,
the camera lens 4 is connected in the shell 2 by the holder 3. The housing 2 is a transparent, translucent or transparent case provided at the lens position. The shell is provided with a groove-shaped connecting structure n-shaped bayonet 5. The n-shaped bayonet 5 is dimensioned to fit a known bicycle, motorcycle or scooter handlebar 8. The multi-mode multi-lens system 1 is provided with a folding connecting rod 7 matched with the size of the n-shaped bayonet 5, one end of the folding connecting rod 7 is connected with the n-shaped bayonet 5 through a connector 11, and the other end of the folding connecting rod is connected with a handle sucker 6. One end of a folding connecting rod 7 is connected with the n-shaped bayonet 5 in a rotating and folding mode through a connector 11, one end of the folding connecting rod 7 is connected with the n-shaped bayonet 5 through a connector 11 screw, one end of the folding connecting rod 7 is connected with the n-shaped bayonet 5 through the connector 11 in an inserting mode, and one end of the folding connecting rod 7 is connected with the n-shaped bayonet 5 through the connector 11 in a buckling mode. The power supply is disposed within the housing 2.
When the multi-mode multi-lens system 1 is connected with a handlebar 8 of a bicycle, a motorcycle or a scooter in a clamping manner through the n-shaped bayonet 5, the multi-mode multi-lens system 1 becomes a handlebar stroke recorder of the bicycle, the motorcycle or the scooter.
When the multi-mode multi-lens system 1 is connected with the folded folding connecting rod 7 in a clamping mode through the n-shaped bayonet 5, the handle sucker 6 is arranged to be connected with an automobile window in an absorbing mode, and the multi-mode multi-lens system 1 becomes the automobile data recorder. The handle sucker 6 is provided with a space bending structure 10, so that when the sucker is connected with a car window in an adsorption mode, the multi-mode multi-lens system 1 obtains a visual field as large as possible.
When the multi-mode multi-lens system 1 is connected with the folding connecting rod 7 in a folding state through the n-shaped bayonet 5 in a clamping mode, the tail end of the grip sucker 6 is arranged to be connected with the helmet in a clamping mode, and the multi-mode multi-lens system 1 becomes a helmet stroke recorder.
When the multi-mode multi-lens system 1 is connected with the connector 11 of the folding connecting rod 7 in the unfolding state through the n-shaped bayonet 5, the multi-mode multi-lens system 1 becomes a handheld stroke recorder by holding the grip sucker 6 with hands.
At least 1 of the 2 or more groups of imaging lenses 4 is provided as a self-lens. Preferably, a multi-mode multi-lens system 1 is provided with 6 sets of photographing lenses 4 respectively disposed at the front, rear, left, right, up and down of the multi-mode multi-lens system 1 to photograph 360-degree video data. Each camera lens 4 is set to a fixed angle of view or its pitch angle and roll angle are adjustable.
To optimize the quality of the shot during the movement, one type of pan/tilt 3 is a micro pan/tilt 3. The micro-motion holder 3 is provided with a gyroscope and a servo micro-motor, so that the multiple groups of camera lenses 4 can stably shoot videos in a bumpy environment, and the pitch angle and the roll angle of the camera lenses can be adjusted through an APP.
Preferably, the multi-mode multi-lens system 1 is in data exchange connection with a smart phone, other multi-mode multi-lens systems 1 or a monitoring system in a protocol through a network layer.
In an embodiment, the multi-mode multi-lens system 1 can be freely and conveniently switched between an automobile mode, a bicycle mode, a motorcycle mode, a scooter mode, a wearing mode and a handheld mode, and is carried and used in a full-stroke mode.
In the embodiment, the wireless ad hoc network is a special short-distance wireless mobile network automatically, quickly and dynamically established among nodes by direct or multi-hop communication of network protocols among a plurality of multi-lens systems, among the multi-lens systems and a smart phone, among the multi-lens systems and a city landmark and among the multi-lens systems and a user, and each node in the network can be provided with a terminal system and a relay routing function simultaneously, so that the wireless ad hoc network can receive and transmit data and can also transmit multi-hop. When the node is used as a terminal system, the node is used as a host to run a corresponding program; when a node acts as a router, it runs the required routing protocols and starts the task of packet forwarding and maintaining routes. Therefore, a user can shoot and record multi-view videos or call other multi-lens systems or monitor and record mixed editing videos through the multiple lenses.
The nodes of the multi-lens system exchange video data, position coordinate information, geographic information, map information, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the arrangement and combination of the above information through the wireless ad hoc network in combination with the timestamp.
The acquired information is transmitted to a sensible computing node in the current wireless ad hoc network for respective computing or cooperative computing, so that a video related to a user is edited from large data video data shot by the multi-lens system. And then optimizing, filtering, clipping and encoding by an information editing and pushing system. And sending the processing result to a specified social network, a cloud disk, a mailbox or playing as a streaming media. And forming the internet of things that a user is connected with a multi-lens system, the multi-lens system is connected with the multi-lens system, the multi-lens system is connected with a smart phone, the multi-lens system is connected with a travel, and the multi-lens system is connected with a city.
The computing node is a mobile node in a network protocol, a positioning node in the network protocol or other computers, distributed computing centers or cloud computing platforms connected with the wireless ad hoc network node through network information. The cooperative calculation is calculation performed by dynamically optimizing the temporary networking of the calculation nodes along with the change of the position coordinates of the multi-lens system.
The information editing and pushing system is positioned at the topmost layer of the wireless ad hoc network protocol stack frame and is used for completing various established tasks by developing various applications with different functions.
A wireless ad hoc network is a point-to-point mobile ad hoc network, and a wireless ad hoc network is a wireless mesh network. A wireless ad hoc network is a wireless ad hoc network based on a ZigBee protocol. A wireless ad hoc network is a wireless ad hoc network based on WiFi, and a wireless ad hoc network based on WiFi is a HaLow wireless ad hoc network. A wireless ad hoc network is a wireless ad hoc network based on Bluetooth, a wireless ad hoc network based on Bluetooth is a wireless ad hoc network based on low-power consumption Bluetooth BLE, a wireless ad hoc network based on Bluetooth is a Bluetooth point-to-point wireless ad hoc network based on a multimedia Connectivity framework, and a wireless ad hoc network based on Bluetooth is a wireless ad hoc network based on iBeacon. A wireless Ad Hoc network is an Ad Hoc network based on ultra wide band UWB. A wireless ad hoc network is based on ultra wide band UWB and Bluetooth mixed communication. A wireless ad hoc network is based on WIFI and Bluetooth mixed communication. A wireless ad hoc network is based on WIFI and ZigBee mixed communication.
When the wireless ad hoc network is based on or mixed with a wireless ad hoc network of WiFi technology, a full-function node is also a cross-network node for connecting the wireless ad hoc network and the Internet.
The information editing and pushing system is artificial intelligence, and the working method is as follows:
1. the multi-lens travel recorder is provided with an APP client control information editing and pushing system on a mobile phone.
2. The information editing and pushing system is provided with a script system, and the script system comprises a video editing system and a video material library.
One video editing system is a virtual director program that scans and parses the shot language, color preferences, composition habits, filming maneuvers, and editing techniques of several directors through past movie big data. The analysis results are digitally programmed and sorted by director's name. Simulating the set director's habits to process the clipped video stream data.
One video clipping system is a MR clipping program that clips raw video data by virtual reality technology or augmented reality technology.
A video editing system is composed of several pre-editing programs, which are a templated and programmed editing language.
A video material library is a plot library, wherein a plurality of video materials are shot according to a set plot mode and stored in a server for later use.
A video material library is an MV music short film library, wherein a plurality of video materials are shot according to set music in an MV music short film mode and are stored in a server for later use.
3. Setting a video material library to classify according to a set classification standard;
for example, according to the scenes, the method is divided into the following steps: an extreme long shot, a large panorama, a small panorama, a medium shot, a half-length shot, a close-up or a large close-up;
the method comprises the following steps according to the motion of a camera: pushing, pulling, shaking, moving, heeling, lifting, descending, bowing, pitching, swinging, suspending, hollowing, cutting, heald, long, reverse beating, zooming or subjective shooting;
and categorizing by geographic location, categorizing by landmark sight spots, categorizing by season, categorizing by story, categorizing by light, categorizing by color, categorizing by music, categorizing by special effects, categorizing by advertisement story, categorizing by video duration, and the like.
4. The information editing and pushing system receives video information data transmitted by the multi-lens system through a network layer, analyzes the video data through a video image recognition program, and edits and selects high-quality original video data. And integrating user position coordinate information, geographic information, map information, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the arrangement and combination of the information, and filtering and screening the video material library according to a video clipping system set by the APP client to obtain the mixed clipping suitable for the video data and the high-quality original video data.
Setting the blending ratio of the video data of the library of feature video material to the original video data is optional.
5. And the processing result is sent to a specified social network, a cloud disk and a mailbox or played as a streaming media through the selection or presetting of the mobile phone APP client.
In the embodiment, the user a records the trip using the multi-mode multi-lens system 1. When a user A drives a vehicle, a virtual director program arranged in the information editing and pushing system controls a group of camera lenses 4 of the multi-mode multi-lens system 1 to shoot a large feature of the user A, a group of camera lenses 4 to shoot a half-length scene of the user A, a group of camera lenses 4 to shoot a co-driver follower, and three groups of camera lenses 4 to shoot a scene at the periphery of the vehicle. And editing the recorded original data into MV through an information editing and pushing system and distributing a WeChat linked by streaming media to the user A. Or the multi-lens travel recorder monitors the recorded vehicle record or the vehicle video recorded by other vehicle-mounted multi-lens systems in the internet through the vehicle internet calling protocol, and the video is edited by mixing the time chain logic and the original video. Or the multi-lens travel recorder also calls video materials of scenic spots passing along the road and in all seasons from the video material library through the network layer according to the driving route of the user A, and video is edited by mixing the geographic label logic and the original video.
When the user a leaves the car, the multi-mode multi-lens system 1 can be used for riding on a bicycle, a motorcycle or a scooter through the n-shaped bayonet 5, or can be used for wearing on a shoulder strap, a waistband or a helmet through the n-shaped bayonet 5 or used for being held by the folding connecting rod 7 or used for being connected with the helmet through the connector 11, worn by a backpack or used for being held by the folding connecting rod 7.
Based on an information editing and pushing system, an actively propagated self-media advertisement promotion method comprises the following steps:
1. and a plurality of high-quality video materials or special-effect label materials containing advertisement information are prepared in advance.
2. And uploading the material setting labels to a corresponding video material library of the server according to the set classification.
3. The public edits high-quality video materials containing advertisement information related to the time position, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the information arrangement combination into the self-shooting video and spreads the self-shooting video through a self-media by an information editing and pushing system spontaneously due to the need of beautifying and enriching the self-shooting video during self-shooting.
Or,
1. the advertiser opens the monitoring system data containing the advertisement information to the public through a network layer protocol, and sets a multi-lens travel recorder to acquire the monitoring system video material of a set angle and a set time period from a designated landmark through an identity recognition system based on the geographic position.
2. And uploading the material setting label to a corresponding account of the server for standby according to the identification system mark.
3. The public can spontaneously edit the monitoring system video material containing advertisement information related to the self-timer time position, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the arrangement and combination of the information into the self-timer video through an information editing and pushing system and spread the video material through self media due to the fact that multi-angle data are acquired to enrich the self-timer video during video self-timer.
Based on an information editing and pushing system, a method for managing the online market travel records of enterprise employees comprises the following steps:
1. one MR clipping procedure set for a business is BMR. The BMR is a video recognition, filtering, editing program. The method comprises the steps of image acquisition and detection, image preprocessing, image feature extraction, matching and identification.
2. The BMR is set to acquire images or video streams by using a camera or a camera, and automatically detect and track set human faces, set patterns, set numbers or set voice keywords in the images, so as to filter, extract, label, clip, encode, convert voice into subtitles or carry out interactive operation on the detected set information.
3. The BMR is provided with a special effect label library, wherein the special effect label library is a visual symbol, a label, a selection frame, a table, a number or a caption for labeling, comparing, summarizing, counting or analyzing the recognized set human face, set patterns, set numbers or set voice keywords.
4. The BMR integrates position coordinate information, geographic information, map information, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or arrangement and combination of the information of the staff in one line, automatically clips a plurality of working travel records according to a set working target, processes the working travel records through a mixed reality technology, and marks, compares, summarizes, counts or analyzes the working travel records by using proper special effect label library data.
5. And the processing result is sent to a specified enterprise network, a cloud disk and a mailbox or played as a streaming media through the selection or presetting of the mobile phone APP client. Therefore, the manager can effectively and intuitively know the set market index from the visual angle of a plurality of staff in the same line.
In the embodiment, the employee A is dispatched in a supermarket, the setting pattern of BMR priority identification is the LOGO of a plurality of competitor companies, meanwhile, BMR priority identification, filtering and price label number labeling are set, the BMR is set to count data such as the flow, sex and age of the mall through face identification, and the employee A is helped to improve the working efficiency and reduce the working intensity. And when the employee A finishes working on the current day, the information editing and pushing system performs sampling, calculation and analysis according to the set key parameters to generate a current day working stroke record. The BMR also helps managers to obtain more visual first-line market data by analyzing a plurality of employee records and calculating, analyzing and generating a series of reports according to set key parameters.
The structure of the multi-lens travel recorder is at least provided with one or more than one.
The above embodiments are only used to illustrate the present invention and not to limit the technical solutions described in the present invention; thus, although the invention has been described in detail with reference to the above embodiments, it will be understood by those skilled in the art that various changes, substitutions, and arrangements can be made, and equivalents can be made; all such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and protected by the following claims.
Claims (6)
1. A multi-lens travel recorder comprises a multi-lens system, a network layer, a server and an information editing and pushing system; the method is characterized in that:
the multi-lens system collects more than one group of video data in a set lens language; the collected video data is wirelessly sent to a server through a network layer and is post-processed by an information editing and pushing system; sending the processed result to a designated social network, a cloud disk, a mailbox or playing as a streaming media;
the utility model provides a multi-mode many camera lens system that adaptation car mode, bicycle, motorcycle or scooter mode, wearing mode and handheld mode used, its technical characterstic is:
the multi-mode multi-lens system comprises a shell, a tripod head, more than 2 groups of camera lenses, an n-shaped bayonet, a grip sucker, a folding connecting rod and a power supply,
the n-shaped bayonet is a quick detachable buckle structure which is connected with a connector quick detachable buckle by using the material performance and the bounce determined by the buckle height and the wall thickness,
the more than 2 groups of camera lenses are connected in the shell by the holder; the shell is transparent or semitransparent or is provided with a transparent shell at the position of a lens; the shell is provided with a groove-shaped connecting structure n-shaped bayonet; the size of the groove-shaped connecting structure is matched with a handlebar of a bicycle, a motorcycle or a scooter; the multi-mode multi-lens system is provided with a folding connecting rod which is matched with the size of the groove-shaped connecting structure, one end of the folding connecting rod is connected with the n-shaped bayonet through a connector, and the other end of the folding connecting rod is connected with the grip sucker;
one end of a folding connecting rod is connected with the n-shaped bayonet in a rotating and folding mode through a connector, or one end of the folding connecting rod is connected with the n-shaped bayonet through a connector screw, or one end of the folding connecting rod is connected with the n-shaped bayonet in an inserting mode through the connector, or one end of the folding connecting rod is connected with the n-shaped bayonet through a connector buckle;
when the multi-mode multi-lens system is clamped with the handlebar of a bicycle, a motorcycle or a scooter through the n-shaped bayonet, the multi-mode multi-lens system becomes a handlebar stroke recorder;
when the multi-mode multi-lens system is clamped with the folded folding connecting rod through the n-shaped bayonet, the handle sucker is arranged to be connected with the automobile window in an adsorption mode, and the multi-mode multi-lens system becomes a driving recorder; the handle sucker is provided with a space bending structure, so that when the sucker is connected with a car window in an adsorption manner, the multi-mode multi-lens system obtains a visual field as large as possible;
when the multi-mode multi-lens system is connected with a epaulet buckle, a strap, a belt or a helmet through the n-shaped bayonet or the tail end of the grip sucker, the multi-mode multi-lens system becomes a wearable stroke recorder;
when the multi-mode multi-lens system is connected with the folding connecting rod connector in an unfolded state through the n-shaped bayonet, the handle suction disc can be held by hand to enable the multi-mode multi-lens system to become a handheld stroke recorder;
at least 1 group of the camera lenses are arranged as self-lenses;
a multi-mode multi-lens system is provided with 6 groups of camera lenses which are respectively arranged at the front, back, left, right, upper and lower parts of the multi-mode multi-lens system to shoot 360-degree video data;
the camera lens has a fixed visual angle or the pitch angle and the roll angle of the camera lens are adjustable;
in order to optimize the shooting quality during movement, one type of pan-tilt is a micro-motion pan-tilt; the micro-motion tripod head is provided with a gyroscope and a servo micro-motor, so that a plurality of groups of camera lenses can stably shoot videos in a bumpy environment, and the pitch angle and the roll angle of the camera lenses can be adjusted through an APP;
a multi-mode multi-lens system is in data exchange connection with a smart phone, other multi-mode multi-lens systems or a monitoring system in a protocol through a network layer.
2. The multi-lens trip recorder of claim 1, wherein:
the multi-lens system is a plurality of groups of camera lenses on the same shooting device or a plurality of groups of camera lenses capable of exchanging information with each other in a wireless dynamic networking; the scene distance and the visual angle of at least one of the multiple groups of camera shots are set to be self-shots for shooting the user's bust, close-up or big close-up; the multiple groups of camera lenses are divided into a self lens and other lenses, or divided into a portrait lens and a scene lens, or divided into a mobile lens and a fixed lens;
the self-lens is a camera lens which is carried by the user and shoots the user;
the camera lens is a camera lens which shoots the user from the third party visual angle, is connected by the network layer and exchanges related video data to the user according to the protocol;
the portrait lens is a plurality of lenses for shooting the user images through the self lens or other lenses in the plurality of groups of camera lenses, and the scene lens is a plurality of lenses for shooting or calling the surrounding scenes of the user according to a time chain or a geographical position label through the self lens or other lenses;
a plurality of groups of camera lenses on the same shooting device are front and back lenses on a smart phone, or a 360-degree camera with a multi-view lens arranged on the same shooting device, or an automobile driving recorder with the multi-view lens, or a scooter, bicycle or motorcycle handlebar driving recorder with the multi-view lens;
a multi-group camera lens of a mobile lens is composed of a plurality of automobile data recorders, single-lens cameras, multi-lens 360-degree cameras or smart phones which are connected by a network layer and can shoot and exchange information with each other;
a fixed-lens video surveillance system in which other lenses are connected by a network layer and which allows information exchange per protocol.
3. The multi-lens trip recorder of claim 1, wherein:
the network layer is a protocol layer and is responsible for the establishment and maintenance of a wireless ad hoc network, and the network layer provides management service and data service for the information editing and pushing system through an interface; the network layer data is connected with the server database and undertakes the management and maintenance work of the network information database;
the wireless ad hoc network is a special short-distance wireless mobile network automatically, quickly and dynamically established among nodes by direct or multi-hop communication of network protocols among a plurality of multi-lens systems, among the multi-lens systems and a smart phone, among the multi-lens systems and an urban landmark and among the multi-lens systems and a user, and each node in the network can be provided with a terminal system and a relay routing function simultaneously, so that the wireless ad hoc network can receive and transmit data and can also carry out multi-hop forwarding; when the node is used as a terminal system, the node is used as a host to run a corresponding program; when the node is used as a router, running a required routing protocol and starting to carry out the tasks of packet forwarding and route maintenance; one routing protocol is based on the ant colony algorithm;
each node of the multi-lens system exchanges video data, position coordinate information, geographic information, map information, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the arrangement and combination of the above information by combining the wireless ad hoc network with a timestamp;
the acquired information is transmitted to a sensible computing node in the current wireless ad hoc network for respective computing or cooperative computing, so that a video related to a user is edited from large data video data shot by a multi-lens system; then, the information is optimized, filtered, edited and encoded by an information editing and pushing system; sending the processing result to a designated social network, a cloud disk, a mailbox or playing as a streaming media; forming an internet of things in which a user is connected with a multi-lens system, the multi-lens system is connected with the multi-lens system, the multi-lens system is connected with a smart phone, the multi-lens system is connected with a journey, and the multi-lens system is connected with a city;
the computing node is a mobile node in a network protocol, a positioning node in the network protocol or other computers, distributed computing centers or cloud computing platforms connected with the wireless ad hoc network node through network information; the cooperative calculation is calculation performed by dynamically optimizing the temporary networking of the calculation nodes along with the change of the position coordinates of the multi-lens system;
the information editing and pushing system is positioned at the topmost layer of the wireless ad hoc network protocol stack frame and is used for completing various established tasks by developing various applications with different functions;
the wireless Ad-Hoc network is a point-to-point mobile Ad Hoc network, a wireless mesh network, a wireless Ad-Hoc network based on a ZigBee protocol, an Ad-Hoc network based on ultra-wideband UWB, a wireless Ad-Hoc network based on WiFi, a wireless Ad-Hoc network based on Bluetooth, a wireless Ad-Hoc network based on ultra-wideband UWB and Bluetooth mixed communication, a wireless Ad-Hoc network based on WIFI and Bluetooth mixed communication or a wireless Ad-Hoc network based on WIFI and ZigBee mixed communication;
when the wireless ad hoc network is a wireless ad hoc network based on Bluetooth, the wireless ad hoc network is a wireless ad hoc network based on low-power consumption Bluetooth (BLE), a Bluetooth point-to-point wireless ad hoc network based on a multimedia Connectivity framework or a wireless ad hoc network based on iBeacon;
when the wireless ad hoc network is based on or mixed with a wireless ad hoc network of WiFi technology, a full-function node is also a cross-network node for connecting the wireless ad hoc network and the Internet.
4. The multi-lens trip recorder of claim 1, wherein:
the information editing and pushing system is artificial intelligence, and the working method is as follows:
step 1, the multi-lens travel recorder is provided with an APP client control information editing and pushing system on a mobile phone;
step 2, arranging a script system in the information editing and pushing system, wherein the script system comprises a video editing system and a video material library;
one video editing system is a virtual director program that scans and parses the lens language, color preferences, composition habits, filming techniques and editing techniques of several directors through past movie big data analysis; digitally programming the analysis result and classifying according to the director name; thereby simulating the set director's habit to process the clipped video stream data;
or, a video clipping system is an MR clipping program that clips raw video data by virtual reality technology or augmented reality technology;
or, a video editing system is a plurality of preset editing programs, and the preset editing programs are templated and programmed editing languages;
a video material library is a plot library, a plurality of video materials are shot in a plot mode according to a set plot and are stored in a server for later use;
or, one video material library is an MV music short film library, and a plurality of video materials are shot in the MV music short film mode according to set music and are stored in a server for later use;
step 3, setting a video material library to classify according to a set classification standard;
the method is divided into the following steps according to scenes: an extreme long shot, a large panorama, a small panorama, a medium shot, a half-length shot, a close-up or a large close-up; the method comprises the following steps according to the motion of a camera: pushing, pulling, shaking, moving, heeling, lifting, descending, bowing, pitching, swinging, suspending, hollowing, cutting, heald, long, reverse beating, zooming or subjective shooting;
and sorting by geographic location, sorting by landmark sight, sorting by season, sorting by subject, sorting by light, sorting by color, sorting by music, sorting by special effect, sorting by advertising subject, sorting by video duration;
step 4, the information editing and pushing system receives video information data transmitted by the multi-lens system through a network layer, analyzes the video data through a video image recognition program and edits and selects high-quality original video data; integrating user position coordinate information, geographic information, map information, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the arrangement and combination of the information, and filtering and screening the video material library according to a video clipping system set by the APP client to obtain the mixed clipping suitable for the video data and the high-quality original video data; setting the mixing proportion of the video data of the characteristic video material library and the original video data to be selectable;
and 5, sending the processing result to a specified social network, a cloud disk and a mailbox or playing the processing result as a streaming media through the selection or presetting of the mobile phone APP client.
5. The multi-lens stroke recorder as claimed in claim 4, wherein:
based on an information editing and pushing system, an actively propagated self-media advertisement promotion method comprises the following steps:
step 1, pre-making a plurality of high-quality video materials containing advertisement information;
step 2, uploading the material setting labels to a corresponding video material library of a server according to the set classification;
step 3, the public spontaneously edits high-quality video materials containing advertisement information, which are related to the self-timer timing position, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or the information arrangement combination, into the self-timer video through an information editing and pushing system due to the need of beautifying and enriching the self-timer video during self-timer shooting, and transmits the self-timer video through a self-media;
or,
step 1, an advertiser opens monitoring system data containing advertisement information to the public through a network layer protocol, and sets a multi-lens travel recorder to acquire monitoring system video materials of a set angle and a set time period from a designated landmark through an identity recognition system based on a geographic position;
step 2, uploading the material setting label to a corresponding account of a server for standby according to the identification system mark;
and 3, automatically editing a monitoring system video material which is related to the self-timer real-time position, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, peripheral environment information or the arrangement and combination of the information and contains advertisement information into the self-timer video through an information editing and pushing system and spreading the video material through self media due to the fact that multi-angle data are acquired to enrich the self-timer video during video self-timer.
6. The multi-lens stroke recorder as claimed in claim 4, wherein:
based on an information editing and pushing system, a method for managing the online market travel records of enterprise employees comprises the following steps:
step 1, setting a MR clipping program aiming at enterprises as BMR; the BMR is a video recognition, filtering and editing program; the method comprises the steps of image acquisition and detection, image preprocessing, image feature extraction, matching and identification;
step 2, setting a video camera or a camera for BMR to collect images or video streams, automatically detecting and tracking set human faces, set patterns, set numbers or set voice keywords in the images, and further filtering, extracting, labeling, clipping, encoding, converting voice into subtitles or performing interactive operation on the detected set information;
step 3, the BMR is provided with a special effect label library, wherein the special effect label library is a visual symbol, a label, a selection frame, a table, a number or a caption for labeling, comparing, inducing, counting or analyzing the identified set human face, set patterns, set numbers or set voice keywords;
step 4, integrating position coordinate information, geographic information, map information, scene fingerprint information, speed information, acceleration information, direction information, lens language information, target information, event variable data, identity information, authority information, surrounding environment information or arrangement and combination of the information by the BMR, automatically editing a plurality of working stroke records according to a set working target, processing the working stroke records by a mixed reality technology, and labeling, comparing, summarizing, counting or analyzing the working stroke records by using proper special effect label library data;
step 5, the processing result is sent to a designated enterprise network, a cloud disk and a mailbox or played as a streaming media through the selection or the presetting of the mobile phone APP client; therefore, the manager can effectively and intuitively know the set market index from the visual angle of a plurality of staff in the same line.
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Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106815870B (en) * | 2016-12-16 | 2020-05-19 | 珠海研果科技有限公司 | Method and system for internally calibrating panoramic camera |
CN107370977B (en) * | 2017-07-31 | 2020-01-17 | 深圳回收宝科技有限公司 | Method, equipment and storage medium for adding commentary in detection video |
CN110126946A (en) * | 2019-05-21 | 2019-08-16 | 深圳市阿达视高新技术有限公司 | Vehicle lamp control method and bicycle recorder |
CN110418109A (en) * | 2019-07-17 | 2019-11-05 | 北京飞鸿云际科技有限公司 | Backpack intelligence individual soldier cruising inspection system, method for inspecting |
CN114584839A (en) * | 2022-02-25 | 2022-06-03 | 智己汽车科技有限公司 | Clipping method and device for shooting vehicle-mounted video, electronic equipment and storage medium |
Family Cites Families (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20060095539A1 (en) * | 2004-10-29 | 2006-05-04 | Martin Renkis | Wireless video surveillance system and method for mesh networking |
CN201622428U (en) * | 2010-02-10 | 2010-11-03 | 文茗实业有限公司 | telescopic bracket |
CN103731642B (en) * | 2014-01-17 | 2016-08-03 | 温州职业技术学院 | High speed all tracing and monitoring equipment |
CN103839562A (en) * | 2014-03-17 | 2014-06-04 | 杨雅 | Video creation system |
US20150281651A1 (en) * | 2014-03-28 | 2015-10-01 | Motorola Solutions, Inc | Method and apparatus for uploading data |
CN104639963A (en) * | 2015-02-09 | 2015-05-20 | 东莞市五笑智能科技有限公司 | Intelligent integrated internet vehicular equipment and working module set thereof |
CN204539325U (en) * | 2015-03-05 | 2015-08-05 | 北京天合数维科技有限公司 | Vehicular field operation video acquisition device |
CN204791212U (en) * | 2015-05-14 | 2015-11-18 | 肖文 | Vehicle event data recorder with panorama shooting function |
CN105072478A (en) * | 2015-07-22 | 2015-11-18 | 深圳市万姓宗祠网络科技股份有限公司 | Life recording system and method based on wearable equipment |
CN105069861A (en) * | 2015-08-03 | 2015-11-18 | 深圳市拓途计算机系统有限公司 | Automobile data recorder, and control method thereof |
CN205263896U (en) * | 2015-11-26 | 2016-05-25 | 李学军 | Multifunctional driving recorder |
CN205302411U (en) * | 2015-12-14 | 2016-06-08 | 宁波裕兰信息科技有限公司 | Video driving recording system that four ways was looked around |
CN105451005A (en) * | 2016-01-08 | 2016-03-30 | 北京中电普华信息技术有限公司 | Monitoring apparatus and monitoring system |
CN205901938U (en) * | 2016-06-19 | 2017-01-18 | 罗轶 | Many camera lenses stroke record appearance |
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2016
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